CN2913356Y - Sludge concentration apparatus - Google Patents

Sludge concentration apparatus Download PDF

Info

Publication number
CN2913356Y
CN2913356Y CNU2005201150214U CN200520115021U CN2913356Y CN 2913356 Y CN2913356 Y CN 2913356Y CN U2005201150214 U CNU2005201150214 U CN U2005201150214U CN 200520115021 U CN200520115021 U CN 200520115021U CN 2913356 Y CN2913356 Y CN 2913356Y
Authority
CN
China
Prior art keywords
mentioned
sludge concentration
thickened sludge
revolution
filter screen
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
CNU2005201150214U
Other languages
Chinese (zh)
Inventor
菅谷谦三
河崎博一
片山雅义
山下学
宫胁将温
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Ishigaki Co Ltd
Original Assignee
Ishigaki Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Ishigaki Co Ltd filed Critical Ishigaki Co Ltd
Application granted granted Critical
Publication of CN2913356Y publication Critical patent/CN2913356Y/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D33/00Filters with filtering elements which move during the filtering operation
    • B01D33/06Filters with filtering elements which move during the filtering operation with rotary cylindrical filtering surfaces, e.g. hollow drums
    • B01D33/11Filters with filtering elements which move during the filtering operation with rotary cylindrical filtering surfaces, e.g. hollow drums arranged for outward flow filtration
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F11/00Treatment of sludge; Devices therefor
    • C02F11/12Treatment of sludge; Devices therefor by de-watering, drying or thickening
    • C02F11/121Treatment of sludge; Devices therefor by de-watering, drying or thickening by mechanical de-watering
    • C02F11/125Treatment of sludge; Devices therefor by de-watering, drying or thickening by mechanical de-watering using screw filters
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D33/00Filters with filtering elements which move during the filtering operation
    • B01D33/44Regenerating the filter material in the filter
    • B01D33/46Regenerating the filter material in the filter by scrapers, brushes nozzles or the like acting on the cake-side of the filtering element
    • B01D33/466Regenerating the filter material in the filter by scrapers, brushes nozzles or the like acting on the cake-side of the filtering element scrapers
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D33/00Filters with filtering elements which move during the filtering operation
    • B01D33/80Accessories
    • B01D33/804Accessories integrally combined with devices for controlling the filtration
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D37/00Processes of filtration
    • B01D37/03Processes of filtration using flocculating agents
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B30PRESSES
    • B30BPRESSES IN GENERAL
    • B30B9/00Presses specially adapted for particular purposes
    • B30B9/02Presses specially adapted for particular purposes for squeezing-out liquid from liquid-containing material, e.g. juice from fruits, oil from oil-containing material
    • B30B9/12Presses specially adapted for particular purposes for squeezing-out liquid from liquid-containing material, e.g. juice from fruits, oil from oil-containing material using pressing worms or screws co-operating with a permeable casing
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B30PRESSES
    • B30BPRESSES IN GENERAL
    • B30B9/00Presses specially adapted for particular purposes
    • B30B9/02Presses specially adapted for particular purposes for squeezing-out liquid from liquid-containing material, e.g. juice from fruits, oil from oil-containing material
    • B30B9/12Presses specially adapted for particular purposes for squeezing-out liquid from liquid-containing material, e.g. juice from fruits, oil from oil-containing material using pressing worms or screws co-operating with a permeable casing
    • B30B9/125Control arrangements
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B30PRESSES
    • B30BPRESSES IN GENERAL
    • B30B9/00Presses specially adapted for particular purposes
    • B30B9/02Presses specially adapted for particular purposes for squeezing-out liquid from liquid-containing material, e.g. juice from fruits, oil from oil-containing material
    • B30B9/26Permeable casings or strainers
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F11/00Treatment of sludge; Devices therefor
    • C02F11/12Treatment of sludge; Devices therefor by de-watering, drying or thickening
    • C02F11/14Treatment of sludge; Devices therefor by de-watering, drying or thickening with addition of chemical agents
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F11/00Treatment of sludge; Devices therefor
    • C02F11/12Treatment of sludge; Devices therefor by de-watering, drying or thickening
    • C02F11/14Treatment of sludge; Devices therefor by de-watering, drying or thickening with addition of chemical agents
    • C02F11/147Treatment of sludge; Devices therefor by de-watering, drying or thickening with addition of chemical agents using organic substances
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F1/00Treatment of water, waste water, or sewage
    • C02F1/52Treatment of water, waste water, or sewage by flocculation or precipitation of suspended impurities
    • C02F1/5281Installations for water purification using chemical agents
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F2209/00Controlling or monitoring parameters in water treatment
    • C02F2209/003Downstream control, i.e. outlet monitoring, e.g. to check the treating agents, such as halogens or ozone, leaving the process
    • CCHEMISTRY; METALLURGY
    • C02TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02FTREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
    • C02F2209/00Controlling or monitoring parameters in water treatment
    • C02F2209/005Processes using a programmable logic controller [PLC]
    • C02F2209/006Processes using a programmable logic controller [PLC] comprising a software program or a logic diagram
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02WCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
    • Y02W10/00Technologies for wastewater treatment
    • Y02W10/20Sludge processing

Landscapes

  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Mechanical Engineering (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Hydrology & Water Resources (AREA)
  • Environmental & Geological Engineering (AREA)
  • Water Supply & Treatment (AREA)
  • Organic Chemistry (AREA)
  • General Chemical & Material Sciences (AREA)
  • Treatment Of Sludge (AREA)
  • Centrifugal Separators (AREA)
  • Filtration Of Liquid (AREA)

Abstract

A sludge concentration device has a differential rotary concentration machine (80), an electric power detector (87) arranged in a tank (88) for receiving sludge concentrated by the differential rotary concentration machine (80), a determiner (91) for receiving an electric signal of concentration (X), detected by the electric power detector (87), of the concentrated sludge and calculating and determining data of the signal, a first controller (92) for receiving a command signal of the result of the determination by the determiner (91) and operating an outer tube driver (86) and a screw driver (85), a proportion setter (93) for receiving a determination signal from the determiner (91) and increasing/decreasing stepwise the rate(a) of injection of flocculant, and a second controller (94) for receiving the command signal from the proportion setter (93) and operating a flocculant supply pump (97). The sludge concentration device concentrates sludge while controlling the injection rate (alpha), the rotation speed (S) of a screw (39), and the rotation speed (C) of an outer tube screen (21).

Description

Sludge concentration device
Technical field
The utility model relates to the sludge concentration device of concentrated water mixing raw sludge down, water digested sludge down, active excess sludge etc., particularly relate to, when screw rod and urceolus filter screen were concentrated with differential rotating filter separate mode, control was to the sludge concentration device of the revolution of the screw rod of the condensing agent addition of downflow sludge and differential rotary concentrator and urceolus filter screen.
Background technology
As in containing the stoste of material, adding condensing agent, make it form the condensation product of outstanding absurd creature matter, to reduce the water ratio of dewatered sludge, in the urceolus filter screen, screw rod is set, one side rotary screw, the filtering surface that regeneration is on one side stopped up easily, and make to contain and be difficult to that filtering organic mud concentrates and the device of dehydration, well-known have a screw press.And, disclose and had the structure that urceolus filter screen and screw rod are reversed mutually, on the driving machine of urceolus filter screen, be provided with load detection device, and detect according to load urceolus is slowed down, to prevent that overladen screw press is (with reference to 4-238699 number bulletin of patent documentation 1-Japanese kokai publication hei, claim 2, Fig. 1).
In addition, also disclose in filtering bodies inside and be provided with in the filtration unit of revolvable screw rod, be provided with: the controlling organization of the feeler mechanism of the big feeler mechanism of supply pressure, screw torque, the revolution of screw rod, control the revolution of screw rod according to the detected result of supply pressure and moment of torsion, thereby the water ratio that makes handled thing reaches stable control device (to be announced for 2002-239341 number with reference to patent documentation 2-TOHKEMY, claim 4, Fig. 1).
As the thickner that is used for concentrating downflow sludge etc., the rotary-type thickner of a kind of differential (with reference to 2001-179492 number bulletin of patent documentation 3-TOHKEMY) is also disclosed, it be tube periphery with circle by filter screen (filtering material) urceolus that constitutes and the mutual opposite spin of screw rod that is disposed at one heart in the urceolus, on one side and in fact on one side with screw rod on the axis direction of urceolus, deliver into mud in the urceolus of horizontal arrangement, the mode of carrying out filtering separation concentrates discharge with it.
Control device as the rotation thickner, also disclose a kind of with discoideus detection bodies not in the sludge water that has concentrated, with drive unit that detection bodies is connected on configuration torque detecting apparatus and measure sludge concentration, and the centrifugal concentrator of adjusting the speed of rotation of mud feed rate and urceolus stack shell (is opened flat 6-25747 number bulletin in fact with reference to patent documentation 4-Japan, claim 1, Fig. 1).
In addition, also disclose a kind of with rotating paddle not in the sludge water that has concentrated, and be provided with viscosity detector and the automatic controls of output according to the detected detectable level value of the rotary torque of rotating paddle, thereby and make thickened sludge concentration reach stable centrifugal concentrator (with reference to special fair 1-39840 number bulletin of patent documentation 5-Japan by the controls revolution difference, claims, Fig. 1).
As first problem be, traditional screw press is for the good mud of the little strainability of viscosity, by the revolution of control screw rod, though can prevent overload, and can obtain the uniform filter cake of water ratio, but for being difficult to filtering mud, when carrying out press dewatering when the volume reducing that makes the filtration chamber, the then very fast obstruction of the filtering surface of urceolus filter screen, or when squeezing sharp, mud can be discharged from the urceolus filter screen with filtrate, and filter is tucked in and might be suspended.Therefore, have that thickening efficiency is low, the concentration of the thickened sludge that obtained also is difficult to uniform problem.
In addition, in the concentration and the feed rate that detect stoste, in the device of control thickened sludge concentration and moment of torsion, there is the variation that sludge quantity and sludge concentration often occur supplying with, the rotary torque that screw rod and urceolus filter screen are applied changes, and is difficult to make the uniform problem of concentration of thickened sludge.
As second problem be, in traditional differential rotary concentrator, exist thickening efficiency to change with the size of screw shaft external diameter and urceolus filter screen internal diameter, differing obtains the problem of highly enriched efficient surely.In addition, in traditional differential rotary concentrator, differing for the various stoste proterties of institute's thickened sludge or as the existence such as concentrated concentration of target with a screw-blade obtains the problem of highly enriched efficient surely.
As the 3rd problem be, traditional laser type sludge concentration meter or microwave type densitometer, though high and effectively for the stoste precision of lower concentration, when enrichment factor increases as the mud that has been concentrated, there is the increase in density of solids component and the problem that is difficult to measure.Be subjected to the shape of solids component in the mud and size about, it is complicated that the attendant equipment that is used to measure also becomes.In addition, traditional with discoideus detection bodies or rotating paddle not in the device of the mensuration sludge concentration in sludge water, the shortcoming that exists is, because of being deposited in, mud make rotary torque produce error on the horizontal plectane, or because of flow increase change produces the reactive force of raising the plate face from the bottom, thereby make the electrical signal instability.Even the rotating paddle not in sludge water also produces the anti-reactive force that pushes away to rotating paddle, there is the unsettled shortcoming of electrical signal.
Summary of the invention
Therefore, first purpose of the present utility model is: provide a kind of thickening efficiency high and can make the sludge concentration device of the concentration homogenizing of thickened sludge.
Second purpose of the present utility model is: provide a kind of thickening efficiency high differential rotary concentrator.
The 3rd purpose of the present utility model is: the detection bodies that will be disposed at the concentration detector in the thickened sludge, make the shape that is difficult to be subjected to the flow influence of change, to reduce the sludge concentration data fluctuations that obtained, and provide a kind of sludge concentration device and mud to concentrate the side, it is except being used for the reasonable water mixing raw sludge down of filterableness, the first precipitating sludge of following water, even for active excess sludge etc. be difficult to also can obtain the sludge concentration data that fluctuate little in the filtering sludge treatment, can carry out the control of stable thickened sludge concentration.
To achieve these goals, the sludge concentration device of first scheme of the present utility model, have: in the urceolus filter screen that can rotate freely, be provided with screw rod, while making the rotation of above-mentioned screw rod differential utilize above-mentioned urceolus strainer filtering to supply to the stoste mud of the top portion of above-mentioned urceolus filter screen, from the differential rotary concentrator of the terminal part discharge thickened sludge of above-mentioned urceolus filter screen; Detection is from the thickened sludge concentration of the sludge concentration of the above-mentioned thickened sludge of above-mentioned differential rotary concentrator discharge; Has the condensing agent supply unit of above-mentioned stoste mud being supplied with the condensing agent supply pump of condensing agent; Control revolution C and the revolution S of above-mentioned screw rod and the control part of the above-mentioned dosage that condenses that above-mentioned condensing agent supply pump is supplied with of above-mentioned urceolus filter screen;
Wherein, above-mentioned differential rotary concentrator has urceolus driving machine that makes above-mentioned urceolus filter screen rotation and the screw drive machine that above-mentioned screw rod is rotated;
Above-mentioned thickened sludge concentration has the sludge sump of the above-mentioned thickened sludge that storage discharges from above-mentioned differential rotary concentrator and detects the sludge concentration of above-mentioned thickened sludge and above-mentioned control part is sent the power detector of electrical signal;
Above-mentioned control part has: receive the above-said current signal of sending from above-mentioned thickened sludge concentration, the determining device that the above-said current signal data is carried out computing and judgement; First instruction signal that reception sends from above-mentioned determining device is also operated first controller of the revolution of above-mentioned urceolus driving machine of control and above-mentioned screw drive machine; First instruction signal that reception sends from above-mentioned determining device also increases and decreases the ratio setting apparatus of the administration rate (α) of the above-mentioned condensing agent of supplying with above-mentioned stoste mud interimly; Second instruction signal that reception sends from the aforementioned proportion setting apparatus and second controller of operating above-mentioned condensing agent supply pump.
According to first scheme of the present utility model, the administration rate α of control condensing agent, the urceolus filter screen of differential rotation and the revolution of screw rod, the medicine usage quantity that just can make condensing agent is an inferior limit, and the concentrated concentration of the mud after will concentrating is maintained at average concentration.
Also can make: the two ends of above-mentioned urceolus filter screen are sealed with discoid flanged plate; Above-mentioned screw rod has the cylindric central shaft that has screw-blade on outer circumference surface; The big or small f of the diameter of above-mentioned cylindric central shaft be above-mentioned urceolus filter screen internal diameter F 40%~70%; On the part periphery of a distolateral above-mentioned cylindric central shaft that is positioned at above-mentioned urceolus filter screen, be provided with above-mentioned stoste mud from the inner inlet opening that imports in the above-mentioned urceolus filter screen of the hollow cylinder of above-mentioned cylindric central shaft; On another distolateral above-mentioned flanged plate of above-mentioned urceolus filter screen, be provided with the exit opening of discharging above-mentioned thickened sludge.
According to said structure, the regeneration effect of the filtering net surface of the sludge concentration device that the utility model provides is big, and thickened sludge etc. are discharged to outside the urceolus filter screen with not being subjected to big discharge resistance, and can carry out concentrating of object being treated such as mud with high-level efficiency.
The outlet aperture regulating mechanism that also increase and decrease can be regulated the port area of above-mentioned exit opening is arranged on the above-mentioned urceolus.
According to said structure, can adjust the residence time of the mud in the urceolus filter screen.
Also can make: the overlap configuration and comprise baffle plate with respect to the rotatable displacement of this flanged plate of above-mentioned exit opening degree regulating mechanism and the flanged plate that has formed above-mentioned exit opening increases and decreases the obturation amount of this baffle plate to above-mentioned exit opening according to this baffle plate with respect to the position of the rotation displacement of above-mentioned flanged plate.
According to said structure, can adjust the residence time of the mud in the urceolus filter screen.
Also can make: from above-mentioned cylinder radially, the above-mentioned cylinder periphery of the edge of opening of the urceolus outer circumferential sides of above-mentioned exit opening and urceolus filter screen is same position substantially.
According to said structure, mud can not be stranded in the urceolus filter screen after running finishes, cleaning easily, and, because resistance to flow output is little,, can not destroy coagulated lumps so thickened sludge is discharged well.
Above-mentioned screw rod blade can be any in 1,2,3 blade.
According to said structure, according to filterableness descend preferably water mixing raw sludge, down water just precipitating sludge, be difficult to sludge character such as filtering active excess sludge or as the concentrated concentration of target, any by the bar number of screw rod blade is made in 1,2,3, can improve thickening efficiency.
Also can make: above-mentioned determining device has stored the upper limit revolution Smax of predefined upper limit thickened sludge concentration Xmax, lower limit thickened sludge concentration Xmin, the upper limit revolution Cmax of above-mentioned urceolus filter screen, the lower limit revolution Cmin of above-mentioned urceolus filter screen, above-mentioned screw rod, the lower limit revolution Smin of above-mentioned screw rod, when surpassing above-mentioned upper limit thickened sludge concentration Xmax by the detected thickened sludge concentration of above-mentioned thickened sludge concentration X and be lower than above-mentioned lower limit thickened sludge concentration Xmin, transmit above-mentioned first instruction signal; Above-mentioned first controller receives above-mentioned first instruction signal that sends from above-mentioned determining device, when surpassing above-mentioned upper limit thickened sludge concentration Xmax by the detected above-mentioned thickened sludge concentration X of above-mentioned thickened sludge concentration, and when above-mentioned condensing agent administration rate is lower than above-mentioned lower limit administration rate α min, increase the revolution of above-mentioned screw drive machine interimly; When being lower than above-mentioned lower limit thickened sludge concentration Xmin by the detected above-mentioned thickened sludge concentration of above-mentioned thickened sludge concentration, reduce the revolution of above-mentioned screw drive machine interimly, be higher than lower limit thickened sludge concentration Xmin up to above-mentioned thickened sludge concentration X, or the revolution S of above-mentioned screw rod reaches till the above-mentioned lower limit revolution Smin; The aforementioned proportion setting apparatus has stored predefined above-mentioned condensing agent administration rate α and as upper limit administration rate α max, the lower limit administration rate α min of condensing agent of the condensing agent of its higher limit and lower value, and receives above-mentioned first instruction signal that sends from above-mentioned determining device; When surpassing above-mentioned upper limit thickened sludge concentration Xmax by the detected thickened sludge concentration of above-mentioned thickened sludge concentration X, then transmit second instruction signal, till above-mentioned thickened sludge concentration X is lower than above-mentioned upper limit thickened sludge concentration Xmax or above-mentioned condensing agent administration rate and reaches above-mentioned lower limit administration rate α min; When the detected thickened sludge concentration of above-mentioned thickened sludge concentration X is lower than above-mentioned lower limit thickened sludge concentration Xmin, and the revolution S of above-mentioned screw rod then transmits second instruction signal when being lower than above-mentioned lower limit revolution Smin; Above-mentioned second controller receives above-mentioned second instruction signal that sends from the aforementioned proportion setting apparatus; When the detected thickened sludge concentration of above-mentioned thickened sludge concentration X surpasses above-mentioned upper limit thickened sludge concentration Xmax, reduce the administration rate α of above-mentioned condensing agent, till above-mentioned thickened sludge concentration X is lower than above-mentioned upper limit thickened sludge concentration Xmax or above-mentioned condensing agent administration rate and reaches above-mentioned lower limit administration rate α min interimly; When the detected thickened sludge concentration of above-mentioned thickened sludge concentration X is lower than above-mentioned lower limit thickened sludge concentration Xmin, and when the revolution S of above-mentioned screw rod is lower than above-mentioned lower limit revolution Smin, increase above-mentioned condensing agent administration rate α then interimly.
According to said structure, change with respect to thickened sludge concentration, owing to can determine two of the revolution S of condensing agent administration rate α, screw rod to operate the priority of element and it is changed interimly, so it is inferior limit that the medicine usage quantity that makes condensing agent can be provided, and the highly enriched sludge concentration of thickening efficiency changes little sludge concentration device.In addition, because the sludge concentration of thickened sludge is stable, institute is so that the management of the treatment process after concentrated becomes easy.
Also can make: above-mentioned determining device has stored the lower limit revolution Smin of predefined upper limit thickened sludge concentration Xmax, lower limit thickened sludge concentration Xmin, the upper limit revolution Cmax of above-mentioned urceolus filter screen, the lower limit revolution Cmin of above-mentioned urceolus filter screen, the upper limit revolution Smax of above-mentioned screw rod, above-mentioned screw rod, when surpassing above-mentioned upper limit thickened sludge concentration Xmax by the detected thickened sludge concentration of above-mentioned thickened sludge concentration X and be lower than above-mentioned lower limit thickened sludge concentration Xmin, then transmit above-mentioned first instruction signal; Above-mentioned first controller receives above-mentioned first instruction signal that sends from above-mentioned determining device; When surpassing above-mentioned upper limit thickened sludge concentration Xmax by the detected thickened sludge concentration of above-mentioned thickened sludge concentration X, and when above-mentioned condensing agent administration rate is lower than above-mentioned lower limit administration rate α min, increase the revolution of above-mentioned screw drive machine then interimly, reach above-mentioned upper limit revolution Smax up to the revolution S of above-mentioned screw rod, when the revolution S of above-mentioned screw rod surpasses above-mentioned upper limit revolution Smax, reduce the revolution of above-mentioned urceolus driving machine then interimly, up to above-mentioned thickened sludge concentration X reach be lower than above-mentioned upper limit thickened sludge concentration Xmax till;
When the detected above-mentioned thickened sludge concentration X of above-mentioned thickened sludge concentration is lower than above-mentioned lower limit thickened sludge concentration Xmin, reduce the revolution of above-mentioned screw drive machine then interimly, till above-mentioned thickened sludge concentration X surpasses above-mentioned lower limit thickened sludge concentration Xmin or above-mentioned screw rod revolution S and reaches above-mentioned lower limit revolution Smin, when above-mentioned screw rod is lower than above-mentioned lower limit revolution Smin, increase the revolution of urceolus driving machine, till above-mentioned sludge concentration surpasses above-mentioned lower limit thickened sludge concentration Xmin or above-mentioned urceolus filter screen and reaches upper limit revolution Cmax then interimly; The aforementioned proportion setting apparatus has stored the administration rate α of predefined above-mentioned condensing agent and as upper limit administration rate α max, the lower limit administration rate α min of condensing agent of the condensing agent of its higher limit and lower value, has received above-mentioned first instruction signal that sends from above-mentioned determining device; When the detected thickened sludge concentration of above-mentioned thickened sludge concentration X surpasses above-mentioned upper limit thickened sludge concentration Xmax, then transmit second instruction signal, till above-mentioned thickened sludge concentration X is lower than above-mentioned upper limit thickened sludge concentration Xmax or above-mentioned condensing agent administration rate and reaches above-mentioned lower limit administration rate α min; When the detected thickened sludge concentration of above-mentioned thickened sludge concentration X is lower than above-mentioned lower limit thickened sludge concentration Xmin, and the revolution C of above-mentioned urceolus filter screen then transmits second instruction signal when surpassing above-mentioned upper limit revolution Cmax; Above-mentioned second controller receives above-mentioned second instruction signal that sends from the aforementioned proportion setting apparatus; When the detected thickened sludge concentration of above-mentioned thickened sludge concentration X surpasses above-mentioned upper limit thickened sludge concentration Xmax, reduce the administration rate α of above-mentioned condensing agent, till the administration rate that above-mentioned thickened sludge concentration X is lower than above-mentioned upper limit thickened sludge concentration Xmax or above-mentioned condensing agent reaches above-mentioned lower limit administration rate α min then interimly; When the detected thickened sludge concentration of above-mentioned thickened sludge concentration X is lower than above-mentioned lower limit thickened sludge concentration Xmin, and the revolution C of above-mentioned urceolus filter screen increases the administration rate α of above-mentioned condensing agent when surpassing above-mentioned upper limit revolution Cmax then interimly.
According to said structure, change with respect to thickened sludge concentration, owing to can determine the revolution S of condensing agent administration rate α, screw rod, three of the revolution C of urceolus filter screen to operate the priority of element and it is changed interimly, so it is inferior limit that the medicine usage quantity that makes condensing agent can be provided, and the highly enriched sludge concentration of thickening efficiency changes little sludge concentration device.In addition, because the sludge concentration of thickened sludge is stable, institute is so that the management of the treatment process after concentrated becomes easy.
Also can make: above-mentioned determining device has stored the lower limit revolution Smin of predefined upper limit thickened sludge concentration Xmax, lower limit thickened sludge concentration Xmin, the upper limit revolution Cmax of above-mentioned urceolus filter screen, the lower limit revolution Cmin of above-mentioned urceolus filter screen, the upper limit revolution Smax of above-mentioned screw rod, above-mentioned screw rod, when surpassing above-mentioned upper limit thickened sludge concentration Xmax by the detected thickened sludge concentration of above-mentioned thickened sludge concentration X and be lower than above-mentioned lower limit thickened sludge concentration Xmin, then transmit above-mentioned first instruction signal; Above-mentioned first controller receives above-mentioned first instruction signal that sends from above-mentioned determining device; When the detected thickened sludge concentration of above-mentioned thickened sludge concentration X surpasses upper limit thickened sludge concentration Xmax, and when above-mentioned condensing agent administration rate is lower than above-mentioned lower limit administration rate α min, when increasing the revolution of above-mentioned screw drive machine, reduce the revolution of above-mentioned urceolus driving machine then interimly interimly; When being lower than above-mentioned lower limit thickened sludge concentration Xmin by the detected thickened sludge concentration of above-mentioned thickened sludge concentration, when reducing the revolution of above-mentioned screw drive machine then interimly, increase the revolution of above-mentioned urceolus driving machine interimly, reach above above-mentioned lower limit thickened sludge concentration Xmin up to above-mentioned thickened sludge concentration X, the revolution C that the revolution S of above-mentioned screw rod reaches above-mentioned lower limit revolution Smin or above-mentioned urceolus filter screen reaches till the above-mentioned upper limit revolution Cmax; The aforementioned proportion setting apparatus has stored the administration rate α of predefined above-mentioned condensing agent and as upper limit administration rate α max, the lower limit administration rate α min of condensing agent of the condensing agent of its higher limit and lower value, has received above-mentioned first instruction signal that sends from above-mentioned determining device; When the detected thickened sludge concentration of above-mentioned thickened sludge concentration X surpasses above-mentioned upper limit thickened sludge concentration Xmax, then transmit second instruction signal, till above-mentioned thickened sludge concentration X is lower than above-mentioned upper limit thickened sludge concentration Xmax or above-mentioned condensing agent administration rate and reaches above-mentioned lower limit administration rate α min; When the detected thickened sludge concentration of above-mentioned thickened sludge concentration X is lower than above-mentioned lower limit thickened sludge concentration Xmin, and when the revolution C that the revolution S of above-mentioned screw rod is lower than above-mentioned lower limit revolution Smin or above-mentioned urceolus filter screen surpasses above-mentioned upper limit revolution Cmax, then transmit second instruction signal; Above-mentioned second controller receives above-mentioned second instruction signal that sends from the aforementioned proportion setting apparatus; When the detected thickened sludge concentration of above-mentioned thickened sludge concentration X surpasses above-mentioned upper limit thickened sludge concentration Xmax, reduce the administration rate α of above-mentioned condensing agent, till the administration rate α that above-mentioned thickened sludge concentration X is lower than above-mentioned upper limit thickened sludge concentration Xmax or above-mentioned condensing agent reaches above-mentioned lower limit administration rate α min then interimly; When the detected thickened sludge concentration of above-mentioned thickened sludge concentration X is lower than above-mentioned lower limit thickened sludge concentration Xmin, and when the revolution C that the revolution S of above-mentioned screw rod is lower than above-mentioned lower limit revolution Smin or above-mentioned urceolus filter screen surpasses above-mentioned upper limit revolution Cmax, increase the administration rate α of above-mentioned condensing agent then interimly.
According to said structure, change with respect to thickened sludge concentration, when three of the revolution C of the revolution S that determines condensing agent administration rate α, screw rod, urceolus filter screen operate the priority of element and it are changed interimly, owing to control the revolution S of screw rod and the revolution C of urceolus filter screen simultaneously, so variation that can promptly corresponding thickened sludge concentration, it is inferior limit that the medicine usage quantity that makes condensing agent can be provided, and the highly enriched sludge concentration of thickening efficiency changes little sludge concentration device.In addition, because the sludge concentration of thickened sludge is stable, institute is so that the management of the treatment process after concentrated becomes easy.
Also can make: above-mentioned determining device has stored the best revolution Sso of predefined upper limit thickened sludge concentration Xmax, lower limit thickened sludge concentration Xmin, the best revolution Cso of above-mentioned urceolus filter screen, above-mentioned screw rod, when above-mentioned differential rotary concentrator entry into service and by the detected thickened sludge concentration of above-mentioned thickened sludge concentration X, be lower than above-mentioned upper limit thickened sludge concentration Xmax and, then transmit above-mentioned first instruction signal greater than above-mentioned lower limit thickened sludge concentration Xmin and when changing stoste feed rate Qs; The best revolution Sso of the best revolution Cso of above-mentioned urceolus filter screen, above-mentioned screw rod sets the revolution of screw rod and urceolus filter screen according to the stoste feed rate Qs that changes and the relational expression of derivation is defined as:
The best revolution Sso (rpm) of screw rod
=revolution coefficient S1 * stoste processing speed (m 3/ m 2/ h)
The best revolution Cso (rpm) of urceolus filter screen
=revolution coefficient C1 * stoste processing speed (m 3/ m 2/ h)
Above-mentioned first controller receives above-mentioned first instruction signal that sends from above-mentioned determining device, when above-mentioned differential rotary concentrator entry into service and the detected above-mentioned thickened sludge concentration X of above-mentioned thickened sludge concentration be lower than above-mentioned upper limit thickened sludge concentration Xmax and greater than above-mentioned lower limit thickened sludge concentration Xmin and when changing above-mentioned stoste feed rate Qs, according to best revolution Sso, the Cso of above-mentioned screw rod that calculates from the above-mentioned relation formula and above-mentioned urceolus filter screen, control screw drive machine and urceolus driving machine.
According to said structure, though stoste feed rate Qs change, in order to concentrate this stoste feed rate Qs owing to making screw rod, the rotation of urceolus filter screen with best revolution, can be so can provide with the sludge concentration device of highly enriched efficient thickened sludge.
Also can make: above-mentioned thickened sludge concentration has: the bottom that falls in the above-mentioned thickened sludge has opening down, and is provided with the cylindric detection bodies of airport in the upper end, has the CD-ROM drive motor of the turning axle that is connected with above-mentioned cylindric detection bodies; Above-mentioned power detector detects the change of the current value of above-mentioned CD-ROM drive motor, and the change of above-mentioned current value is exported as above-said current signal.
According to said structure, except the reasonable water mixing raw sludge down of filterableness, the first precipitating sludge of following water, be difficult to filtering sludge treatment owing to can obtain the little thickened sludge concentration data that fluctuates for active excess sludge etc., and control, so can provide the sludge concentration device that can carry out stable thickened sludge concentration control based on the little thickened sludge concentration data of this fluctuation.
Also can make: above-mentioned determining device receives the successive above-said current signal that sends from above-mentioned power detector, calculate the average current value of above-mentioned successive electrical signal, and the upper limit rate and the lower limit rate of above-mentioned average current value and predefined stable electrical flow valuve compared computing, if above-mentioned average current value is lower than the lower limit rate of aforementioned stable current value continuously, then reduce the revolution S of screw rod, surpass the upper limit rate of stable electrical flow valuve if average current value rises continuously, then increase the revolution S of screw rod.
According to said structure, change corresponding to sludge character, can carry out the automatic adjustment of screw rod revolution S, can provide to add minimal condensing agent and stablize the control device of differential rotary concentrator of the thickened sludge concentration of control stabilization.
Also can make: above-mentioned determining device, even as the revolution S that controls above-mentioned screw rod, continuing detected above-mentioned average current value rises when being higher than the upper limit rate of aforementioned stable current value or being lower than the lower limit rate, the condensing agent supply pump is sent instruction signal, above-mentioned condensing agent supply pump receives the above-mentioned instruction signal that sends from above-mentioned determining device, when if above-mentioned mean current is lower than the lower limit rate of aforementioned stable current value, the condensing agent administration rate α of the stoste of then increasing supply mud, if above-mentioned mean current rises when surpassing the upper limit rate of aforementioned stable current value, then reduce the condensing agent administration rate α that supplies with stoste mud.
According to said structure, change corresponding to sludge character, can carry out the automatic adjustment of condensing agent administration rate, can provide to add minimal condensing agent and stablize the control device of differential rotary concentrator of the thickened sludge concentration of control stabilization.
The mud separation and concentration method of the differential rotary concentrator of alternative plan of the present utility model, make two ends with discoid flanged plate, sealing, and the urceolus that the cylinder periphery is made of the urceolus filter screen rotates around self central axis of level in fact, and, make the screw rod of concentric arrangement in above-mentioned urceolus to the direction rotation opposite with the sense of rotation of above-mentioned urceolus; To supply to as the stoste mud of object being treated in the hollow cylinder portion of cylindric central shaft of above-mentioned screw rod of diameter of axle f of 40%~70% size with above-mentioned urceolus filter screen internal diameter F; Above-mentioned stoste mud is imported above-mentioned urceolus from the inlet opening that is located on the part periphery that is positioned at the distolateral above-mentioned cylindric central shaft of above-mentioned urceolus one in the mode of residual upper space; Scavenging solution is sprayed to the cylinder periphery of above-mentioned cylinder from the outside top of above-mentioned urceolus; When continuously or off and on above-mentioned out cylinder filter screen being cleaned, the screw rod blade of being located on the outer circumference surface of above-mentioned cylindric central shaft in utilization distolateral is transplanted on that another is distolateral with the mud in the above-mentioned urceolus from one of above-mentioned urceolus, and from the process that the locational exit opening of another the distolateral flange that is formed at above-mentioned urceolus is discharged, utilize above-mentioned urceolus filter screen to carry out the filtration of mud.
According to alternative plan of the present utility model, can provide mud to carry the mud separation and concentration method of good, filtering net surface regeneration effect and efficient height, differential rotary concentrator that the mud thickening efficiency is high.
Also can regulate the residence time that above-mentioned exit opening area is adjusted mud in the above-mentioned urceolus by increase and decrease.
According to said structure, can provide the mud separation and concentration method of the differential rotary concentrator that can adjust detention time of mud.
Also the sludge-filled rate in the above-mentioned urceolus can be taken as more than 50%, below 90%.
According to said structure, can provide the mud separation and concentration method of the high differential rotary concentrator of filtering net surface regeneration efficiency.
Description of drawings
Fig. 1 is the one-piece construction figure of sludge concentration device system.
Fig. 2 is the embodiment sectional view of expression as the differential rotary concentrator of one of sludge concentration device component part.
Fig. 3 is the partial front elevation view of the urceolus filter screen of differential rotary concentrator shown in Figure 2.
Fig. 4 is the sectional view along the IV-IV line of Fig. 3.
Fig. 5 is the screw rod front view of the screw rod blade bar number of differential rotary concentrator shown in Figure 2 when being 3.
Fig. 6 is the end view drawing of exit opening one side of thickened sludge that is provided with the urceolus of differential rotary concentrator shown in Figure 2.
Fig. 7 is the explanatory view of the user mode of expression differential rotary concentrator.
Fig. 8 is the synoptic diagram of detection by the thickened sludge concentration of the thickened sludge concentration X of the spissated thickened sludge of differential rotary concentrator.
Fig. 9 is the longitudinal diagram of cylindric detection bodies one of thickened sludge concentration component part as shown in Figure 8, that be connected with motor axis of rotation.
Figure 10 is the schema of the control method of the sludge concentration device of expression thickened sludge concentration X outside setting range the time.
Figure 11 is the schema that the control method of the sludge concentration device of thickened sludge concentration X outside setting range time the make the method that screw rod and urceolus filter screen rotate is simultaneously adopted in expression.
Figure 12 is the schema of the control method of expression differential rotary concentrator.
Figure 13 is that the expression transverse axis is that administration rate α (%TS), the longitudinal axis are the figure of the SS rate of recovery (%) of thickened sludge concentration X% and mud.
Figure 14 is that the expression transverse axis is the revolution S (min of screw rod 39 -1), the longitudinal axis is the figure of the SS rate of recovery (%) of thickened sludge concentration X% and mud.
Figure 15 is that the expression transverse axis is the revolution C (min of urceolus filter screen 21 -1), the longitudinal axis is the figure of the SS rate of recovery (%) of thickened sludge concentration X% and mud.
Figure 16 is the revolution S (rpm) of expression screw rod 39 and the graph of a relation of thickened sludge concentration X%.
Figure 17 is the graph of a relation of expression administration rate α (%) and thickened sludge concentration X%.
Wherein, main structure unit is as follows:
15 urceolus, 17,19 flanged plates, 21 urceolus filter screens,
39 screw rods, 43 screw rod blades, 41 cylindric central shafts,
51 input ports, 55 inlet openings, 59 exit openings,
63 baffle plates, 71 wash tubes, 80 differential rotary concentrators,
81 thickened sludge concentration, 82 control parts,
83 condensing agent supply units, 85 screw drive machines,
86 urceolus driving machines, 87 power detectors,
88 mud Receiving bins, 90 cylindric detection bodies,
91 determining devices, 92 first controllers, 93 ratio setting apparatus,
94 second controllers, 95 coagulation units,
96 mud supply pumps, 97 condensing agent supply pumps,
Embodiment
Below, with reference to description of drawings embodiment of the present utility model.In following accompanying drawing is recorded and narrated, identical or similar part has been used identical or similar label.But accompanying drawing is a synoptic diagram, should note the relation of its thickness and planar dimension, and the ratio of each layer thickness is different with reality.Therefore, concrete thickness or size please refer to following explanation and judge.In addition, also comprise accompanying drawing size relationship or the mutual distinct portions of ratio each other certainly.
In addition, embodiment shown below is the device enumerated for technological thought of the present utility model is specialized or the example of method 1, and the utility model technological thought is not limited to following content to the material of constituent part, shape, structure, configuration etc.The utility model technological thought within the scope of the claims, can carry out various changes.
First embodiment
Below, with reference to sludge concentration device and the sludge concentration method of accompanying drawing detailed description the utility model first embodiment.
At first, sludge concentration device is described.
The one-piece construction of sludge concentration device system at first, is described.Fig. 1 is the one-piece construction figure of sludge concentration device system, sludge concentration device has: the differential rotary concentrator 80 of thickened sludge stoste, the thickened sludge concentration 81 of the thickened sludge concentration X of the thickened sludge that detection is concentrated and discharges by this differential rotary concentrator 80, has condensing agent supply unit 83 from the condensing agent supply pump 97 of condensing agent to stoste mud that supply with, according to the detectable level Data Control differential rotary concentrator 80 of thickened sludge concentration 81 and the control part 82 of condensing agent supply pump 97.
Below, with reference to each textural element of accompanying drawing detailed description sludge concentration device.
[1] differential rotary concentrator
At first, with reference to Fig. 2~above-mentioned differential rotary concentrator 80 of 6 explanations, Fig. 2 is the vertical profile side-view of differential rotary concentrator 80, and frame 1 has left side plate 3,5, on the side plate 3,5 bearing sleeve 7 and bottom bracket 9 is being fixed on the horizontal axis.Bearing sleeve 7 and bottom bracket 9 utilize parts of bearings 11,13 rotatably mounted urceolus 15.
Urceolus 15 by two ends by 17,19 sealings of discoid flanged plate and the urceolus filter screen 21 that the cylinder periphery is made with punch metal etc. constitutes.On the flanged plate 17 of one end (left side), fixed minor axis sleeve 23, parts of bearings 11 has been installed in minor axis sleeve 23 inner circumferential side.On the flanged plate 19 of the other end (right side), fixed major axis sleeve 25, parts of bearings 13 has been installed in the outer circumferential sides of major axis sleeve 25.
Urceolus filter screen 21 cylindraceous, as shown in Figure 3, Figure 4, it is fixed in both ends with the two halves shape on bolt and nut 29 interconnective two semi-annular shape parts 27A, 27B, left and right sides semi-annular shape parts 27A, 27B are connected with flanged plate 17,19 with bolt and nut 31 respectively.Many pull bars 33 are erected between left and right sides semi-annular shape parts 27A, the 27B, have installed from a plurality of support rings 35 of the axial middle portion of outside supplemental support urceolus filter screen 21 at the middle portion of the axis direction of each pull bar 33.
On major axis sleeve 25, fixed the sprocket wheel 37 of urceolus rotation driving usefulness.The electric motor that sprocket wheel 37 and the rotation of not shown urceolus drive usefulness drives and is connected, thereby drives 21 rotations of urceolus filter screen at for example opposite with the sense of rotation N of central shaft 41 counter-clockwise sense of rotation M (with reference to Fig. 7).
Rotatably concentric arrangement has screw rod 39 in urceolus filter screen 21.Screw rod 39 has cylindric central shaft 41, is located at the spirrillum screw rod blade 43 on cylindric central shaft 41 outer circumference surfaces, is connected in the rotating driveshaft 45 of cylindric central shaft 41 closed ends (right part) with one heart.In addition, screw rod blade 43 for example can be that 1,2,3 blade is any as required.Fig. 5 represents is the screw rod 39 of screw rod blade 43 when being 3.Table 1 is the bar number of expression screw rod blade 43 and the relation table of thickening efficiency (concentrating concentration, the rate of recovery, filtration velocity).In this experimental example, along with the increase of bar number, thickening efficiency improves.
[table 1]
Urceolus filter screen internal diameter F (mm) Screw shaft diameter f (mm) Screw rod blade bar number Original liquid concentration (%) Concentrate concentration (%) The rate of recovery (%) Filtration velocity (m 3/m 2/h)
…800 420 Article 1, 1.5 4.5 97 10
800 420 Article 1, 1.5 5 95 10
800 420 Article 2, 1.5 5.15 95 10
800 420 Article 3, 1.5 5.1 97 10
800 420 Article 3, 1.5 5.35 95 10
Cylindric central shaft 41 is in urceolus filter screen 21, and an end (left side) extends and reaches in the bearing sleeve 7, and this stretches out axial region 47 and rotatably is supported on the bearing sleeve 7 by parts of bearings.Stretch out the front end face opening of axial region 47, this opening end becomes the input port 51 of stoste mud (object being treated).
Cylindric central shaft 41 is provided with two on the axle periphery of the part that is positioned at urceolus filter screen 21 1 distolateral (flanged plate 17 sides) will be imported the inlet opening 55 of urceolus 15 as the stoste mud of object being treated by the hollow cylinder portion 53 of cylindric central shaft 41.In addition, fixed the mud that is used to prevent object being treated in the hollow cylinder portion 53 of cylindric central shaft 41 and immersed closing plate 57 in the hollow cylinder portion 53 from the position of inlet opening 55 to the right side of Fig. 2.
In addition, the big or small f of the external diameter of cylindric central shaft 41, be preferably from the viewpoint of thickening efficiency urceolus filter screen 21 internal diameter F 40%~70%.Its reason is described as follows.Table 2 is expression screw rod blades 43 when being, and the diameter of axle of the diameter of axle f of screw rod 39 and the internal diameter F of urceolus filter screen 21 is than (f/F) relation table with thickening efficiency (concentrating concentration, the rate of recovery, filtration velocity).In this experimental example, be to compare in 40%~70% o'clock with the diameter of axle than (f/F), though the diameter of axle has reduced filtration velocity than to concentrate concentration not low if be lower than 40%, consequently reduced thickening efficiency.And if though not low greater than 70% filtration velocity, it is low to concentrate concentration value, has consequently reduced thickening efficiency.That is, the diameter of axle of the diameter of axle f of screw rod 39 and the internal diameter F of urceolus filter screen 21 is than (f/F), in the time of in 40%~70% scope, can improve simultaneously and concentrates concentration and filtration velocity, and can improve thickening efficiency.
[table 2]
Urceolus filter screen internal diameter F (mm) Screw shaft diameter f (mm) The diameter of axle is than f/F (%) Original liquid concentration (%) Concentrate concentration (%) The rate of recovery (%) Filtration velocity (m 3/m 2/h)
800 265 33 1.5 4.1 90 5
800 265 33 1.5 3.9 93 5
800 390 49 1.5 4.2 97 10
800 420 53 1.5 4.5 97 10
800 420 53 1.5 5.0 95 10
800 460 58 1.5 4.4 97 10
800 460 58 1.5 4.9 94 10
800 600 75 1.5 3.8 98 10
Rotating driveshaft 45 runs through major axis sleeve 25 vertically, is rotatably supported by major axis sleeve 25, and is connected with motor drive that the rotation of not shown screw rod drives usefulness, and drive screw 39 rotates around for example clockwise direction.
Screw rod blade 43 rotate around clockwise direction by screw rod 39, with left side (flanged plate 17 sides) (the flanged plate 19 sides) conveying to the right from Fig. 2 of the mud in the urceolus 15.The neighboring of screw rod blade 43 with urceolus filter screen 21 between relative with minim gap so that not short circuit of mud (not axial leakage).In addition, also can on screw rod blade 43, scraper plate be installed as required, utilize to scrape the regeneration recovery of carrying out urceolus filter screen 21.
A plurality of exit openings 59 that the thickened sludge in the urceolus 15 is discharged have been formed in flanged plate 19 upper sheds outside urceolus 15.Exit opening 59 is and the circular-arc opening of the centres of urceolus 15 that the edge of opening 61 of urceolus outer circumferential sides is positioned at the cylinder periphery (inner peripheral surface) and the radially being seen almost same position of urceolus 15 of urceolus filter screen 21.This means, on urceolus filter screen 21, between inner peripheral surface and exit opening 59, do not stop.Therefore, after running finished, mud can not accumulate in the urceolus filter screen 21, and cleaning easily.
On flanged plate 19, as the outlet aperture regulating mechanism, as shown in Figure 6 of the port area (useful area) of increase and decrease exit opening 59, utilize bolt 65 fixed can with respect to flanged plate 19 rotational displacement with the overlap baffle plate 63 of configuration of flanged plate 19 outer sides.Baffle plate 63 has foliated lamellar portion 67 on each exit opening 59, its can be according to the rotational displacement position (fixed position of sense of rotation) of flanged plate 19 and increase and decrease similarly utilizes the stifled inaccessible amount of the exit opening 59 that foliated lamellar portion 67 forms.In addition, the through hole 69 that is formed at the bolt 65 on the baffle plate 63 is and the slotted hole of the circular shape of the centres of urceolus 15, in the scope of through hole 69, can utilizes bolt 65 that baffle plate 63 is fixed on any rotary angle position with respect to flanged plate 17.
With the mode fixed configurations that is erected between the left side plate 3,5 scavenging solution ejection wash tube 71 is being arranged above the outside of urceolus filter screen 21.Directly over the sense of rotation that wash tube 71 is configured in the outer at least partially tube in position filter screen 21 directly over the urceolus filter screen 21 does not reach between the position of a side, so that the scavenging solution that is sprayed by wash tube 71 can be sprayed on the urceolus filter screen 21 effectively.
Below, the mud separation and concentration method of the differential rotary concentrator 80 that has used said structure is described.
Drive urceolus filter screen 21 around counter-clockwise direction, drive screw 39 is around the clockwise direction opposite with urceolus filter screen 21 sense of rotation rotation, adds the condensing agent of high molecular polymer for example and the mud of polymer coagulation is dropped in the hollow cylinder portion 53 continuously from the input port 51 of stretching out axial region 47 in pre-treatment in stoste mud.This mud is entered in the urceolus 15 by inlet opening 55 by hollow cylinder portion 53, and the screw rod blade 43 that utilizes rotation is transported to the other end (right side) from the end (left side) of urceolus 15.
In this course of conveying, liquid component in the mud (filtrate) sees through urceolus filter screen 21 and separates outflow to the below of urceolus 15, carry out concentrating of mud, the throughput direction of the mud that is concentrated (axially) will not change, and successfully discharges to the outside of urceolus 15 from each exit opening 59.
Like this, thickened sludge can be discharged to outside the urceolus filter screen 21 under the situation that not be subjected to big resistance, thereby can not destroy the coagulated lumps of polymer coagulation.In addition, increase and decrease the useful area of exit openings 59 by utilizing baffle plate 63, thereby can easily adjust the residence time of mud in the urceolus 15.
In above-mentioned mud concentration process, by profit by the wash tube 71 of the outside top of tube filter screen 21 urceolus filter screen 21 spraywashing liquid to the cylinder periphery that constitutes urceolus 15, to carry out the cleaning of urceolus filter screen 21, by the rotation of urceolus filter screen 21 to the M direction, thereby can bring into play all effects of (wholecircle week) filtration area of urceolus of urceolus filter screen 21 effectively, can improve processing power by leaps and bounds.At this moment, keep the mud separation and concentration efficiency and clean better and recover urceolus filter screen 21, as shown in Figure 7, can make sludge-filled rate in the urceolus filter screen 21 in the scope h of 50% above H1,90% following H2 for good.
In addition, utilize the rotation of screw rod 39 to transport the effect of thickened sludge, and scrape the effect of getting filtering surface with the differential of screw rod blade 43 front ends of urceolus filtering surface (urceolus filter screen 21) reverse direction rotation forms, the mud that carries out continuous effective is concentrated.The reverse differential of urceolus filter screen 21 and screw rod 39 can suitably be set according to mud, is preferably more than the 4RPM.In addition, carry out continuously usually though clean, when filterableness is good, also can be discontinuous and carry out off and on.And, when filterableness is very good, also can be without rinse water.
By above-mentioned as can be known illustrated, according to differential rotary concentrator 80 of the present utility model and mud separation and concentration method, because can utilize the urceolus filter screen 21 and the retrograde rotation of screw rod 39 carries out importing concentrating of object being treateds such as mud in the urceolus from the inlet opening 55 of cylindric central shaft 41 expeditiously, and spissated mud etc. can be discharged to outside the urceolus under the situation that is not subjected to big resistance from the exit opening 59 that is formed on the flanged plate 19 that is positioned at the throughput direction that utilizes screw rod 39 rotation (urceolus axially) front position, so do not destroy the danger of the polymer coagulation piece in the mud, can carry out stable concentration, mud can successfully flow also to be difficult to produce and stop up.
[2] condensing agent supply unit
Below, with reference to Fig. 1 condensing agent supply unit 83 is described.
As shown in Figure 1, disposed coagulation units 95, supplied with from the mud pipeline 96a of the mud supply pump 96 of the excess sludge that stores jar etc. and the dosing pipe 97a of condensing agent supply pump 97 and be connected with coagulation units 95 at the leading portion of differential rotary concentrator 80.In addition, detect the under meter 98 that drops into the stoste sludge quantity in the differential rotary concentrator 80 and be located between mud supply pump 96 and the coagulation units 95, and be connected with flow circuit 98a with determining device 91.
Mix mud and the condensing agent of supplying with to coagulation units 95 from mud supply pump 96 and condensing agent supply pump 97 and make it generate coagulated lumps with stirrer 99, and supply with these mud to differential rotary concentrator 80.
[3] thickened sludge concentration
Below, with reference to Fig. 8,9 explanation thickened sludge concentration 81.
The structure of thickened sludge concentration 81 at first, is described.
As shown in Figure 8, disposed mud Receiving bin 88, be used to store the thickened sludge that concentrates, discharges by differential rotary concentrator 80 at the terminal part of differential rotary concentrator 80.Power detector 87 has essential distinction amperometric 110 and detection monitor 111.
And the cylindric detection bodies 90 that is connected with the turning axle 106 of the CD-ROM drive motor 89 of variable speed motor formula hangs down in the mud Receiving bin 88.On CD-ROM drive motor 89, connect a pair of feed cable 100,101, and on a pair of feed cable 100,101, connected power detector 87 and 100V single phase poaer supply 102 for example.
Detection bodies 90 is not in the sludge water of mud Receiving bin 88 and only residual top is deposited in the top of detection bodies 90 to prevent mud.In addition, on mud Receiving bin 88, be provided with overflow weir 103, keep certain with water level with thickened sludge.
Fig. 9 is detection bodies 90 longitudinal diagrams that are connected with CD-ROM drive motor 89, is fixed in the lower end of turning axle 106 of the CD-ROM drive motor 89 that is being threaded on the standing finish 105 on the top board 104 of detection bodies 90 upper ends and fixing with set nut 107.The bottom that hangs down into the detection bodies 90 in the mud Receiving bin 88 is an opening 108, is provided with airport 109 on the top board 104 of detection bodies 90.
Below, the detection method of thickened sludge concentration X is described.
CD-ROM drive motor 89 is driven, the cylindric detection bodies 90 that hangs down in the mud Receiving bin 88 is rotated with same track, make the cylinder circumferential wall sliding contact of thickened sludge and detection bodies 90.The resistance of 90 pairs of thickened sludges of detection bodies is passed to CD-ROM drive motor 89 by turning axle 106.Power to turning axle 106 changes because of the mud sliding contact resistance that changes, and the current value of CD-ROM drive motor 89 changes.Power detector 87 will be from the current value of this variation of feed cable 100 output of outgoing side and as power value, thereby detects thickened sludge concentration X.And power detector 87 sends thickened sludge concentration X to control part 82 as electrical signal.And with for example 4~20mA transmission electrical signal.
Make cylindricly by the detection bodies 90 that will measure rotational resistance, because the friction resistance of detection of vertical outer circumference surface, thereby be difficult to be subjected to the influence of the flow change of the thickened sludge that flows down to mud Receiving bin 88, thereby can obtain the little data of deviation.In addition, the air of detection bodies 90 inside can be discharged from the airport 109 of top board 104, can prevent because of flow increases the effect that change detection bodies 90 is upwards lifted from the below, thereby electrical signal can be stablized.And, because the top of cylindric detection bodies 90 is in the top of mud face, so can not produce the error that is deposited in the rotary torque that the top of detection bodies 90 produces because of mud.
[4] control part
Below, with reference to Fig. 1 control part 82 is described.
As shown in Figure 1, control part 82 has: receive the electrical signal of power detector 87 detected thickened sludge concentration X, and calculate the determining device 91 of these data to judge; Receive the instruction signal of determining device 91 specified judged results and first controller 92 that the revolution C of the revolution S of screw rod 39 and urceolus filter screen 21 is carried out red-tape operati; The signal that reception is judged and sent by determining device 91, and interim the ratio setting apparatus 93 that increases and decreases condensing agent administration rate α; Reception is from the instruction signal of ratio setting apparatus 93 and operate second controller 94 of condensing agent supply pump 97.
On determining device 91, preestablish, stored following condition:
1. upper limit thickened sludge concentration Xmax% and lower limit thickened sludge concentration Xmin%;
2. end the lower limit revolution Smin and the upper limit revolution Smax of increase and decrease of the revolution S of screw rod 39, the once increase and decrease revolution a (a=1~2min that carries out increasing and decreasing from the revolution S of screw rod 39 interimly -1)
3. end the lower limit revolution Cmin and the upper limit revolution Cmax of increase and decrease of the revolution C of urceolus filter screen 21, the once increase and decrease revolution b (b=1~2min that carries out increasing and decreasing from the revolution C of urceolus filter screen 21 interimly -1)
4. for thickened sludge concentration X, stoste feed rate Qs, optimal revolution Sso, the Cso of screw rod 39 that concentrated concentration is the highest and urceolus filter screen 21
And, in determining device 91, preestablished:
5. corresponding to the value of thickened sludge concentration X, its data are sent to ratio setting apparatus 93 from determining device 91.
In addition, in determining device 91, can also set,
When the revolution C that reduces urceolus filter screen 21 interimly, when reaching lower limit revolution Cmin, signal gives the alarm.In addition, when thickened sludge concentration X reaches unusual high value and unusual low value, detect the unusual of thickened sludge concentration X, and send warning signal.
In ratio setting apparatus 93, preestablish, store following condition:
1. the once administration rate d% (d=0.01~0.03%) of increase and decrease that increases and decreases interimly,
2. end the lower limit administration rate α min% and the upper limit administration rate α max% of condensing agent administration rate α of the interpolation increase and decrease of condensing agent,
In addition, in ratio setting apparatus 93, also be set with:
3. when condensing agent administration rate α reaches lower limit administration rate α min%, Yi Bian keep the state of lower limit administration rate α min%, Yi Bian carry condensing agent administration rate α to reach the information of lower limit administration rate α min% to determining device 91 from ratio setting apparatus 93.
In addition, in ratio setting apparatus 93, can also be set at:
4 increase condensing agent administration rate α interimly, when reaching upper limit administration rate α max%, Yi Bian keep the state of upper limit administration rate α max%, Yi Bian alarm.
Secondly, the sludge concentration method of sludge concentration device is described.
[1] the operation element of in sludge concentration method, setting
In sludge concentration method of the present utility model, the operation element when the revolution C of the revolution S of condensing agent administration rate α, screw rod 39, urceolus filter screen 21 is set at mud and concentrates.At first the relation of the SS rate of recovery (%) of element and thickened sludge concentration X%, mud is respectively operated in explanation.
1. administration rate α: research condensing agent administration rate α % is to the influence of the SS rate of recovery (%) of thickened sludge concentration X% and mud.Figure 13 represents that transverse axis is that administration rate α (%TS), the longitudinal axis are the SS rate of recovery (%) of thickened sludge concentration X% and mud.Along with the increase of administration rate α, the SS rate of recovery (%) of thickened sludge concentration X% and mud all increases.But, when too high, return sometimes and obtain reverse effect as if administration rate α.
2. the revolution S of screw rod 39: studied the influence of the revolution S of screw rod 39 to the rate of recovery (%) of thickened sludge concentration X and mud SS.Figure 14 represents that transverse axis is the revolution S (min of screw rod 39 -1), the longitudinal axis is the SS rate of recovery (%) of thickened sludge concentration X% and mud.Along with the increase of the revolution S of screw rod 39, thickened sludge concentration X has reduced, and is little to the influence of the rate of recovery.
3. the revolution C of urceolus filter screen 21: studied the influence of the revolution C of urceolus filter screen 21 to the SS rate of recovery (%) of thickened sludge concentration X and mud.Fig. 15 expression transverse axis are the revolution C (min of urceolus filter screen 21 -1), the longitudinal axis is the SS rate of recovery (%) of thickened sludge concentration X% and mud.The revolution C of urceolus filter screen 21 is if surpass certain certain value, and then along with the increase of speed, thickened sludge concentration X increases slowly, and the SS rate of recovery (%) of mud has the tendency of reduction.
In addition, thickened sludge concentration X% both can be by thickened sludge concentration 81 detected concentration, also can be the concentration that calculates in order to following method.
The calculating of the thickened sludge concentration X of thickened sludge, if establish: Ts=stoste sludge concentration, Qs=stoste feed rate, Qp=condensing agent feed rate, the Qf=parting liquid water yield, Qc=thickened sludge amount when Qw=cleans the water yield, then can be calculated with following formula: X=(Qs * Ts)/(Qs+Qp+Qw-Qf) calculate approx.At this moment, in controller 92, set in advance, so that calculate thickened sludge concentration X from the value of Ts, Qs, Qp, Qf, Qc, Qw.
[2] sludge concentration method
Below, be briefly described sludge concentration method.
(1) when thickened sludge concentration X changes and surpass setting range (higher limit, lower value), according to the relation of each operation element and thickened sludge concentration X, following carrying out.
1. press the priority shown in the table 3, control successively condensing agent administration rate α %, screw rod 39 revolution S, urceolus filter screen 21 revolution C respectively operate element.
2. even respectively operate the ultimate value that element reaches setting range, as long as thickened sludge concentration X does not enter setting range, still will be by priority operation change operation element.
3. the setting range of the revolution C by dwindling urceolus filter screen 21 can be removed the revolution C of urceolus filter screen 21 from controlled member, only with the revolution S of administration rate α, screw rod 39 as controlled member.
4. in order to accelerate reply speed, can increase and decrease the revolution S of screw rod 39 and the revolution C of urceolus filter screen 21 simultaneously according to predefined method to thickened sludge concentration X.
5. when increasing and decreasing the revolution C of the revolution S of screw rod 39 and urceolus filter screen 21 at the same time, also can make the revolution S of screw rod 39 and the revolution C sum of urceolus filter screen 21 is steady state value.
6. about the setting range of thickened sludge concentration X, respectively operate the setting range of element,, need each every kind of object mud handling and revise setting though set in advance as standard value.
[table 3]
When (2) thickened sludge concentration X is in the scope of setting range (lower value, higher limit), or when the sludge concentration device entry into service, can adopt corresponding to the best revolution Sso of predefined screw rod 39 of thickened sludge concentration X, stoste feed rate Qs and urceolus filter screen 21, the method for Cso thickened sludge.
And then, describe sludge concentration method in detail.
At first, the stoste of a constant volume of having added the condensing agent of administration rate α is supplied to differential rotary concentrator 80, with revolution C, S urceolus filter screen 21 and screw rod 39 mutually reverse on one side, the thickened sludge of the thickened sludge of separating filtrate, and discharge on one side concentration X.Change according to stoste sludge character and stoste mud feed rate begins the control of sludge concentration device, and thickened sludge concentration X is entered into more than the lower limit thickened sludge concentration Xmin%, in the scope below the upper limit thickened sludge concentration Xmax%.Thickened sludge concentration X is detected as electric power with power detector 87 every the regular hour (for example, 5 minutes), detected power value is sent to determining device 91 as electrical signal.Determining device 91 calculates thickened sludge concentration X according to the electrical signal that receives from power detector 87, and compares computing with lower limit thickened sludge concentration Xmin%, upper limit thickened sludge concentration Xmax%.According to the result of comparison operation, carry out mud as follows and concentrate: during X>Xmax, with the method for following (1); During X<Xmin, with the method for (2); When Xmin≤X≤Xmax, maintain the statusquo, or with the method for following (3).In addition, the concentration method during for the entry into service that do not detect thickened sludge concentration X is as the explanation in following (4).
(1) when thickened sludge concentration X rises above upper limit thickened sludge concentration Xmax%
(2) when being reduced to lower limit thickened sludge concentration Xmin% under the thickened sludge concentration X
(3) more than thickened sludge concentration X is lower limit thickened sludge concentration Xmin%, when upper limit thickened sludge concentration Xmax% is following
(4) during the sludge concentration device entry into service
(1) when thickened sludge concentration X rises above upper limit thickened sludge concentration Xmax%
Figure 10 is the schema that the thickened sludge concentration X of sludge concentration device is kept certain method.According to Figure 10, below, the order of (a)~(j) is described.
(a) when thickened sludge concentration X rises above upper limit thickened sludge concentration Xmax%, send instruction signals from determining device 91 to ratio setting apparatus 93, send the instruction signal that reduces condensing agent administration rate α to second controller 94 from ratio setting apparatus 93.
(b) second controller, 94 control condensing agent supply pumps 97 only reduce administration rate d% (d=0.01~0.03%) from condensing agent administration rate α.
(c) specified time (for example, 5 minutes) after thickened sludge concentration X, if also be higher than upper limit thickened sludge concentration Xmax%, then repeat this operation, interim the condensing agent administration rate α that reduces, up to thickened sludge concentration X reach be lower than upper limit thickened sludge concentration Xmax% till.
(d) when condensing agent administration rate α reaches lower limit administration rate α min%, Yi Bian keep lower limit administration rate α min%, Yi Bian return the information that condensing agent administration rate α has reached lower limit administration rate α min% to determining device 91 from ratio setting apparatus 93.
(e) according to the information that has reached lower limit administration rate α min% from the condensing agent administration rate α of ratio setting apparatus 93, if thickened sludge concentration X is higher than upper limit thickened sludge concentration Xmax%, then send the instruction signal of the revolution S that increases screw rod 39 to first controller 92 from determining device 91.
(f) first controller 92 operation screw drive machines 85, and the revolution S of screw rod 39 is only increased an increase and decrease revolution a (a=1~2min -1).
(g) specified time (for example, 5 minutes) after thickened sludge concentration X, if still be higher than upper limit thickened sludge concentration Xmax%, then according to its information, send instruction signal from determining device 91 to first controller 92, repeat this operation, and interim the revolution S that increases screw rod 39, reach below the upper limit thickened sludge concentration Xmax% up to thickened sludge concentration X.
(h) when the revolution S of screw rod 39 reaches upper limit revolution Smax, keep upper limit revolution Smax, if thickened sludge concentration X is higher than upper limit thickened sludge concentration Xmax%, then send the instruction signal of the revolution C that reduces urceolus filter screen 21 to first controller 92 from determining device 91.
(i) first controller 92 is operated urceolus driving machines 86, and the revolution C of urceolus filter screen 21 is only lowered an increase and decrease revolution b (b=1~2min -1), and repeat this operation, reach up to thickened sludge concentration X and be lower than upper limit thickened sludge concentration Xmax%, or the revolution C of urceolus filter screen 21 is lower than till the lower limit revolution Cmin.
(j) when the revolution C of urceolus filter screen 21 is lower than lower limit revolution Cmin, keep the state of lower limit revolution Cmin, and meanwhile abnormality alarm sent, and revision program.
According to aforesaid method, variation for thickened sludge concentration X, since can determine administration rate, screw rod 39 revolution S, urceolus filter screen 21 revolution C three operation elements priority and its stepping is changed, so thickened sludge concentration X can be kept certain, corresponding to the variation of sludge character, can reduce the medicine usage quantity.And, because the sludge concentration of thickened sludge is stable, so concentrate the management of postprocessing working procedures easily.
The variation 1 of first embodiment
In addition, shown in the schema of Figure 11,, also can increase and decrease the revolution C of urceolus filter screen 21 simultaneously with the revolution S of screw rod 39 in (e) stage of above-mentioned (1).Concrete is to send the instruction signal that is used for making simultaneously screw rod 39 and 21 rotations of urceolus filter screen to first controller 92 from determining device 91.First controller 92 that has received this instruction signal is operated screw drive machine 85 and urceolus driving machine 86 simultaneously, and makes the revolution S of screw rod 39 only increase an increase and decrease revolution a (a=1~2min -1), make the revolution C of urceolus filter screen 21 only reduce by an increase and decrease revolution b (b=1~2min -1).Repeat this operation, reach up to thickened sludge concentration X and be lower than upper limit thickened sludge concentration Xmax%, or the revolution C that the revolution S of screw rod 39 reaches upper limit revolution Smax or urceolus filter screen 21 reaches till the lower limit revolution Cmin.
According to this method, can accelerate the reply speed of screw rod 39 and 21 pairs of thickened sludge concentration of urceolus filter screen X.
And, if make the increase and decrease revolution a and the urceolus filter screen 21 of stepping ground increase and decrease screw rod 39 once increase and decrease revolution b sum a+ (b)=0} keeps certain, then controls and become simple.
(2) when being reduced to lower limit thickened sludge concentration Xmin% under the thickened sludge concentration X
Figure 10 is the schema that the thickened sludge concentration X of sludge concentration device is kept certain method.According to Figure 10, below, the order of (a)~(g) is described.
(a) drop to when being lower than lower limit thickened sludge concentration Xmin% as thickened sludge concentration X, send the instruction signal of the revolution S that reduces screw rod 39 from determining device 91 to first controller 92.
(b) first controller 92 operation screw drive machines 85, and the revolution S of screw rod 39 is only reduced by an increase and decrease revolution a (a=1~2min -1), and repeat this operation, and reduce the revolution S of screw rod 39 interimly, reach above lower limit thickened sludge concentration Xmin% up to thickened sludge concentration X, or the revolution S of screw rod 39 reaches till the lower limit revolution Smin.
(c) when the revolution S of screw rod 39 reaches lower limit revolution Smin, keep lower limit revolution Smin, when if thickened sludge concentration X is lower than lower limit thickened sludge concentration Xmin%, then send the instruction signal of the revolution C that increases urceolus filter screen 21 to first controller 92 from determining device 91.
(d) first controller, 92 operation urceolus driving machines 86, and make the revolution C of urceolus filter screen 21 only increase an increase and decrease revolution b (b=1~2min -1), and repeat this operation, reach above lower limit thickened sludge concentration Xmin% up to thickened sludge concentration X, or the revolution C of urceolus filter screen 21 reaches till the upper limit revolution Cmax.
(e) be lower than lower limit thickened sludge concentration Xmin% as thickened sludge concentration X, and when the revolution C of urceolus filter screen 21 reaches upper limit revolution Cmax, to the information that the revolution C of ratio setting apparatus 93 transmission urceolus filter screens 21 reaches upper limit revolution Cmax, send the instruction signal that increases condensing agent administration rate α to second controller 94 from determining device 91 from ratio setting apparatus 93.
(f) second controller, 94 control condensing agent supply pumps 97, and make condensing agent administration rate α only increase administration rate d% (d=0.01~0.03%).Repeat this operation stepping, reach up to thickened sludge concentration X and be higher than lower limit thickened sludge concentration Xmin%, or condensing agent administration rate α reaches till the upper limit administration rate α max%.
(g) when condensing agent administration rate α reaches upper limit administration rate α max%, keep the state of upper limit administration rate α max%, and meanwhile abnormality alarm sent, and revision program.
According to aforesaid method, variation for thickened sludge concentration X, since can determine condensing agent administration rate, screw rod 39 revolution S, urceolus filter screen 21 revolution C three operation elements priority and make its stepping ground variation, so thickened sludge concentration X can be kept certain, corresponding to the variation of sludge character, can reduce the medicine usage quantity.And, because the sludge concentration of thickened sludge is stable, so concentrate the management of postprocessing working procedures easily.
The variation 2 of first embodiment
In addition, shown in the schema of Figure 11,, also can increase and decrease the revolution C of urceolus filter screen 21 simultaneously with the revolution S of screw rod 39 in (a) stage of above-mentioned (2).Concrete is to send the instruction signal that is used for making simultaneously screw rod 39 and 21 rotations of urceolus filter screen to first controller 92 from determining device 91.First controller 92 that has received this instruction signal is operated screw drive machine 85 and urceolus driving machine 86 simultaneously, and makes the revolution S of screw rod 39 only reduce by an increase and decrease revolution a (a=1~2min -1), make the revolution C of urceolus filter screen 21 only increase an increase and decrease revolution b (b=1~2min -1).Repeat this operation, reach up to thickened sludge concentration X and be higher than lower limit thickened sludge concentration Xmin%, or the revolution S of screw rod 39 reaches lower limit revolution Smin, or the revolution C of urceolus filter screen 21 reaches till the upper limit revolution Cmax.And, when the revolution S of screw rod 39 reaches lower limit revolution Smin, or the revolution C of urceolus filter screen 21 sends these information from determining device 91 to ratio setting apparatus 93 when reaching upper limit revolution Cmax, and sends the instruction signal that increases condensing agent administration rate α % to second controller 94 from ratio setting apparatus 93.
According to aforesaid method, can accelerate the reply speed of screw rod 39 and 21 pairs of thickened sludge concentration of urceolus filter screen X.
And, if make the increase and decrease revolution a and the urceolus filter screen 21 of stepping ground increase and decrease screw rod 39 once increase and decrease revolution b sum a+ (b)=0} keeps certain, then controls and become simple.
(3) more than thickened sludge concentration X is lower limit thickened sludge concentration Xmin%, when upper limit thickened sludge concentration Xmax% is following
When stoste feed rate Qs changes, also can adopt following sludge concentration method.
At first, the screw rod 39 that is applicable to when mud concentrates and the revolution of urceolus filter screen 21 are described.
The use original liquid concentration is 0.6% downflow sludge in differential rotary concentrator 80, and calculates the screw rod 39 of reverse differential rotation and best revolution Sso, the Cso of urceolus filter screen 21.Because to the best revolution Sso of stoste feed rate Qs, the set(ting)value of Cso is the value that rule of thumb draws, so utilize the travelling speed of screw rod 39 rotations to be preferably 1/2 of stoste mud input amount.The problem of the revolution C of urceolus filter screen 21 is which type of frequency to give regeneration new filtering surface with, to adopt the consideration method same with the wash number of relative stoste feed rate Qs.Cleaning is with respect to 10m 3/ m 2The treatment capacity of/h, its rotating speed is necessary for 15rpm, and and the revolution C that make urceolus filter screen 21 proportional with treatment capacity increases with 15 multiple.Best revolution Cso, Sso with respect to the urceolus filter screen 21 of stoste feed rate Qs and screw rod 39 are as shown in table 4.
Table 4 expression is the concentrated original liquid concentration of differential rotary concentrator of the 300mm running example when being 0.6% following water excess sludge with the internal diameter F of urceolus filter screen 21.
[table 4]
The stoste treatment capacity Best screw rod revolution Best urceolus filter screen revolution Concentration rate
10m 3/m 2/h 5rpm -15rpm 8-10 doubly
15m 3/m 2/h 7.5rpm -22rpm 6-8 doubly
20m 3/m 2/h 10rpm -30rpm 5-6 doubly
The screw rod 39 of relative each mud input amount of obtaining from table 4 and the best revolution Sso of urceolus filter screen 21, the relational expression of Cso are:
The best revolution Sso (rpm) of screw rod 39=0.5 * stoste processing speed (m 3/ m 2/ h)
The best revolution Cso (rpm) of urceolus filter screen 21=1.5 * stoste processing speed (m 3/ m 2/ h).Therefore, the benchmark calculating formula is:
The best revolution Sso (rpm) of screw rod 39=revolution coefficient S1 * stoste processing speed (m 3/ m 2/ h)
The best revolution Cso (rpm) of urceolus filter screen 21=revolution coefficient C1 * stoste processing speed (m 3/ m 2/ h).
According to above-mentioned data analysis, if determined then assembly program simply of revolution coefficient S1, C1.Dense for stoste is 0.6% downflow sludge, though S1=0.5, C1=1.5 are more suitable, for filterableness, the mud that concentrates the property difference or large-scale differential rotary concentrator 80, the value of S1, C1 is then little than above-mentioned numerical value.The value of setting revolution coefficient S1, C1 like this can be fit to the stoste sludge character.And, will be fit to revolution coefficient S1 that the stoste sludge character obtains, C1 value and be stored in advance in the determining device 91 with respect to the benchmark relation formula of the best revolution Cso of the best revolution Sso of the screw rod 39 of stoste feed rate Qs, urceolus filter screen 21.
Below, according to the order of (a)~(c) explanation sludge concentration method.
(a) though in common running stoste feed rate Qs certain, when having changed stoste feed rate Qs, detect stoste feed rate Qs when on-stream, and to determining device 91 transmission detection signals with under meter 98 because of certain reason.
(b) determining device 91 receives this detection signal, and calculates the best revolution Sso of screw rod 39 and the best revolution Cso of urceolus filter screen 21 from relational expression, and instruction signal is sent to first controller 92.
(c) first controller, 92 operation screw drive machine 85 and urceolus driving machines 86 are changed into best revolution Sso, Cso with the revolution S of screw rod 39 and the revolution C of urceolus filter screen 21.
According to aforesaid method, even stoste feed rate Qs change owing to can make screw rod 39,21 rotations of urceolus filter screen with the revolution that is suitable for most concentrated this stoste feed rate Qs, can be carried out concentrating of mud with highly enriched efficient.
When (4) running of sludge concentration device begins
Also can adopt following sludge concentration method.
When the running of sludge concentration device begins, make screw rod 39 and 21 rotations of urceolus filter screen with the best revolution Sso of the screw rod 39 of explanation in (3) and the best revolution Cso of urceolus filter screen 21.
According to this method, can make sludge concentration device from the high state entry into service of thickening efficiency, there is no need when the running beginning, all to set the revolution S of the screw rod 39 that meets the stoste proterties, the revolution C of urceolus filter screen 21 at every turn.
Second embodiment
The sludge concentration device of second embodiment, though also the structure shown in Figure 1 with first embodiment is the same, the sequence of control difference that determining device 91 is stored.In addition, also different because of different its concentration method of sequence of control.Because other structure and action are identical with first embodiment, thereby omit the multiple narration.Among the figure, identical textural element is put on identical label.
At first, the sequence of control that determining device 91 is stored is described.
To be sent to determining device 91 from the continuous electric signal of 4~20mA of power detector 87 output.To the sliding contact resistance with the detection bodies 90 of sludge concentration device 80 spissated desirable thickened sludges be calculated as the stable electrical flow valuve of CD-ROM drive motor 89 in advance, set the upper limit and the lower limit rate of allowed band, with this stable electrical flow valuve, the upper limit and lower limit rate input determining device 91.
Below, about sludge concentration method, the order of following (a)~(g) is described.
(a) to the continuous electric signal from power detector 87 of input determining device 91, Time Calculation in accordance with regulations goes out average current value.
(b) this mean value is repeated for several times also on average, the stable electrical flow valuve upper limit and lower limit rate during to this mean value and predefined running compare computing again.
(c) if average current value is lower than the lower limit rate of stable electrical flow valuve continuously, then make the revolution S of screw rod 39 only reduce the regulation revolution.
(d) repeat this operation, when average current value reaches in the allowed band of stable electrical flow valuve, keep the revolution of screw rod 39.
(e) in addition, if average current value surpasses stable electrical flow valuve upper limit rate continuously, then make the revolution S of screw rod 39 only increase the regulation revolution.
(f) repeat this operation, when average current value reaches in the allowed band of stable electrical flow valuve, keep the revolution of screw rod 39.
(g) even at the revolution S that controls screw rod 39, when the mean current that continuous detecting goes out still exceeds the stable electrical flow valuve upper limit and lower limit rate, send instruction signal from determining device 91 to condensing agent supply pump 97, if mean current is lower than the lower limit rate of stable electrical flow valuve, then increase condensing agent administration rate α, if average current value surpasses the upper limit rate of stable electrical flow valuve, then reduce condensing agent administration rate α, change with proterties condensing agent administration rate α is adjusted automatically according to mud.
Like this, in the sludge concentration device and sludge concentration method of second embodiment, though the stoste feed rate is kept a certain amount of, control the rotation control of screw rod 39 as mentioned above, but when stoste feed rate Qs changes, as initial setting,, then can carry out optimum running if the revolution C and the stoste feed rate Qs of screw rod 39 and urceolus filter screen 21 increased and decreased pro rata.And, when sludge character change greatly, when being necessary to change stoste feed rate Qs, as long as change the revolution C of urceolus filter screen 21 pro rata with stoste feed rate Qs and carry out revolution and control.The reason of the revolution S of initial control screw rod 39 is because directly demonstration is to the reply of thickened sludge concentration.The reaction times that need to determine mud and condensing agent of administration rate is so need the suitable reply time.According to this order, can reduce the administration rate, also can add minimal condensing agent.
More particularly,
Figure 16 is the revolution S of expression screw rod 39 and the graph of a relation of thickened sludge concentration, and transverse axis is represented the revolution S (rpm) of screw rod 39, and the longitudinal axis is represented thickened sludge concentration %.As the operating condition of differential rotary concentrator 80, make the revolution C of urceolus filter screen 21 keep certain, and handle the sludge quantity of regulation.In this embodiment, if to the revolution S of the screw rod 39 of mud be increased to 5,10, during 15rpm, then thickened sludge concentration is roughly 4.7,4.0,3.5%.That is, screw rod 39 rotation to the influence of sludge concentration is, revolution S is high more, and then mud is short more in the residence time of the inside of urceolus filter screen 21, and then spissated sludge concentration reduces.On the contrary, if reduce the revolution S of screw rod 39, then mud is at the residence time of urceolus filter screen 21 inside lengthening, and then spissated sludge concentration improves.
Figure 17 represents the relation of administration rate α and thickened sludge concentration X, and transverse axis represents that administration rate %, the longitudinal axis represent thickened sludge concentration X.As the operating condition of differential rotary concentrator 80, the revolution C maintenance of urceolus filter screen 21 is certain, and handle the sludge quantity of stipulating.In this embodiment, if the administration rate of relative mud is increased to 0.2%, 0.3%, 0.4% administration rate, then thickened sludge concentration X is roughly 3%, 4%, 5%.The influence that the administration rate changes sludge concentration is, the administration rate is high more, and then spissated sludge concentration is also high more.On the contrary, if reduce administration rate α, then spissated sludge concentration also reduces.In this embodiment, be 4% if become the standard sludge concentration of stable electrical flow valuve, then standard administration rate is set at 0.3%.In addition, the increase and decrease of condensing agent administration rate α is each increase and decrease 0.01%.
Figure 12 is the schema of the control method of expression differential rotary concentrator 80, in determining device 91, the average current value sent from power detector 87 and the stable electrical flow valuve of setting are compared computing, whether per 5 minutes mean intensity value of the read-around ratio (about 3 times) that calculating is set is also calculated it and is reduced, surpass 0.1% if thickened sludge concentration X is lower than the degree of standard sludge concentration 4%, then the revolution S with screw rod 39 reduces 1rpm from 10rpm.Often the sludge character that changes also has the situation of own recovery, from the continuous electric signal of power detector 87 should per 5 minutes instrumentations once.Measure after 5 minutes again, surpass 0.1% if thickened sludge concentration X still is lower than the degree of standard sludge concentration 4%, then the revolution S with screw rod 39 reduces 1rpm again.Repeat to reach below 3.5% up to concentration for several times.Reach 3.5% when following when the revolution S of control screw rod 39 makes concentration, measure again after the administration rate is increased to 0.31%, 5 minute from 0.3%.Repeat this operation, when the average sludge concentration of measuring reaches in the allowed band, keep screw rod 39 revolutions of differential rotary concentrator 80.
Calculate per 5 minutes mean concns of the read-around ratio of setting and calculate it and whether reduce with determining device 91, if thickened sludge concentration X is higher more than 0.1% than standard sludge concentration 4%, then make the revolution S of screw rod 39 increase 1rpm from 10rpm,, measure again after 5 minutes.If concentration is still high more than 0.1% than standard sludge concentration 4%, then, repeat to reach below 4.5% up to concentration for several times again with the revolution S increase 1rpm of screw rod 39.Even as the revolution S of control screw rod 39, concentration still is not lower than 4.5% when following,, measure again after the administration rate reduced to 0.29%, 5 minute from 0.3%.Repeat this operation, when the average sludge concentration of measuring reaches in the allowed band, keep screw rod 39 revolutions of differential rotary concentrator 80.
In addition, in this embodiment, the standard sludge concentration is set at 4%, the standard revolution S of screw rod 39 is set at 10rpm, the current value of power detector 87 instrumentations then is the stable electrical flow valuve.Change for thickened sludge concentration X, per 5 minutes instrumentations once, though the increase and decrease of the revolution S of screw rod 39 is made as 1rpm, condensing agent administration rate α gradient is made as 0.01%, but this value can be according to the revolution C of sludge character, mud handling capacity and urceolus filter screen 21, and the revolution S and the condensing agent administration rate α of screw rod 39 carried out suitable setting.
According to sludge concentration device of the present utility model and sludge concentration method, because the energy instrumentation is from the concentration of the thickened sludge of differential rotary concentrator 80 discharges, and according to the concentration of its thickened sludge, stepping ground control condensing agent administration rate, the screw rod 39 that reverses mutually and the revolution C of urceolus filter screen 21, so can prevent overload, and the sludge concentration after will concentrating keeps certain to screw rod 39 and urceolus filter screen 21.In addition, because the energy instrumentation is from the concentration of the thickened sludge of differential rotary concentrator 80 discharges, and according to the concentration of its thickened sludge, by priority stepping ground control condensing agent administration rate, the screw rod 39 that reverses mutually and the revolution C of urceolus filter screen 21, so the medicine usage quantity of condensing agent can be controlled to be the MIN while, the sludge concentration after concentrating is kept certain.Because the sludge concentration after concentrating is stable, so the management of the treatment process after concentrating becomes easy.
Because during the change of the feed rate of stoste mud, can set corresponding to the best screw rod 39 of its stoste feed rate Qs and the revolution C of urceolus filter screen 21, and the control differential rotary concentrator, so even the feed rate Qs of stoste mud when change also can carry out the running of highly enriched efficient.
In addition, according to sludge concentration device of the present utility model and sludge concentration method, owing to the external diameter size f of the screw rod 39 cylindric central shafts 41 of differential rotary concentrator 80 is set in 40%~65% the scope of internal diameter F of urceolus filter screen 21, so can carry out concentrating of mud with highly enriched efficient.In addition, owing to can the bar number of screw rod blade 43 be made 1,2,3 any with mud stoste proterties and as the concentrated concentration of target etc. with matching, thereby can carry out concentrating of mud with highly enriched efficient.Therefore, the waste in the time of reducing mud and concentrate also can corresponding require the processing of highly enriched sludge concentration.
And, according to sludge concentration device of the present utility model and sludge concentration method, because will be disposed at the detection bodies 90 of the concentration detector in the mud after concentrating makes and is difficult to be subjected to the cylindric of flow influence of change, thereby, except the reasonable water mixing raw sludge down of filterableness, beyond the first precipitating sludge of following water, even active excess sludges etc. are difficult to filtering mud, also can reduce the fluctuation that concentrates back sludge concentration data, and the screw rod 39 of the sludge concentration Data Control differential rotary concentrator 80 after concentrating according to this and the revolution C and the condensing agent administration rate of urceolus filter screen 21, so be to concentrate back equable sludge concentration device of sludge concentration and method.Therefore, because the sludge concentration after concentrating is stable, so the management of the treatment process after concentrating becomes easily, except reasonable water the mixings raw sludge down of filterableness, descend the first precipitating sludge of water, being difficult to filtering sludge treatment for active excess sludge etc. also is the rotation thickner that is fit to.

Claims (9)

1. sludge concentration device has:
In the urceolus filter screen (21) that can rotate freely, be provided with screw rod (39), while making the rotation of above-mentioned screw rod (39) differential utilize above-mentioned urceolus filter screen (21) to filter the stoste mud of the top portion that supplies to above-mentioned urceolus filter screen (21), discharge the differential rotary concentrator (80) of thickened sludge from the terminal part of above-mentioned urceolus filter screen (21);
Detection is from the thickened sludge concentration (81) of the sludge concentration of the above-mentioned thickened sludge of above-mentioned differential rotary concentrator (80) discharge;
Has the condensing agent supply unit (83) of above-mentioned stoste mud being supplied with the condensing agent supply pump (97) of condensing agent;
Control revolution C and the revolution S of above-mentioned screw rod (39) and the control part (82) of the above-mentioned dosage that condenses that above-mentioned condensing agent supply pump (97) is supplied with of above-mentioned urceolus filter screen (21); It is characterized in that:
Above-mentioned differential rotary concentrator (80) has urceolus driving machine (86) that makes above-mentioned urceolus filter screen (21) rotation and the screw drive machine (85) that makes above-mentioned screw rod (39) rotation;
Above-mentioned thickened sludge concentration (81) has the sludge sump (88) of the above-mentioned thickened sludge that storage discharges from above-mentioned differential rotary concentrator (80) and detects the sludge concentration of above-mentioned thickened sludge and to the power detector (87) of above-mentioned control part (82) transmission electrical signal;
Above-mentioned control part has:
The above-said current signal that reception is sent from above-mentioned thickened sludge concentration (81), the determining device (91) that the above-said current signal data is carried out computing and judgement;
First instruction signal that reception sends from above-mentioned determining device (91) is also operated first controller (92) of the revolution of control above-mentioned urceolus driving machine (86) and above-mentioned screw drive machine (85);
First instruction signal that reception sends from above-mentioned determining device (91) also increases and decreases the ratio setting apparatus (93) of the administration rate (α) of the above-mentioned condensing agent of supplying with above-mentioned stoste mud interimly;
Second instruction signal that reception sends from aforementioned proportion setting apparatus (93) and second controller (94) of operating above-mentioned condensing agent supply pump (97).
2. sludge concentration device according to claim 1 is characterized in that:
The two ends of above-mentioned urceolus filter screen (21) are with discoid flanged plate (17), (19) sealing;
Above-mentioned screw rod (39) has the cylindric central shaft (41) that has screw-blade (43) on outer circumference surface;
The big or small f of the diameter of above-mentioned cylindric central shaft (41) be above-mentioned urceolus filter screen (21) internal diameter F 40%~70%;
On the part periphery of a distolateral above-mentioned cylindric central shaft (41) that is positioned at above-mentioned urceolus filter screen (21), be provided with above-mentioned stoste mud from the inner inlet opening (55) that imports in the above-mentioned urceolus filter screen (21) of the hollow cylinder of above-mentioned cylindric central shaft (41);
On another distolateral above-mentioned flanged plate (19) of above-mentioned urceolus filter screen (21), be provided with the exit opening (59) of discharging above-mentioned thickened sludge.
3. sludge concentration device according to claim 1 is characterized in that: above-mentioned screw rod blade (43) is any of 1,2,3 blade.
4. sludge concentration device according to claim 1 is characterized in that:
Above-mentioned determining device (91) has stored the upper limit revolution Smax of predefined upper limit thickened sludge concentration Xmax, lower limit thickened sludge concentration Xmin, the upper limit revolution Cmax of above-mentioned urceolus filter screen (21), the lower limit revolution Cmin of above-mentioned urceolus filter screen (21), above-mentioned screw rod (39), the lower limit revolution Smin of above-mentioned screw rod (39), when surpassing above-mentioned upper limit thickened sludge concentration Xmax by the detected thickened sludge concentration of above-mentioned thickened sludge concentration (81) X and be lower than above-mentioned lower limit thickened sludge concentration Xmin, transmit above-mentioned first instruction signal;
Above-mentioned first controller (92) receives above-mentioned first instruction signal that sends from above-mentioned determining device (91),
When surpassing above-mentioned upper limit thickened sludge concentration Xmax by the detected above-mentioned thickened sludge concentration X of above-mentioned thickened sludge concentration (81), and when above-mentioned condensing agent administration rate is lower than above-mentioned lower limit administration rate α min, increase the revolution of above-mentioned screw drive machine (85) interimly;
When being lower than above-mentioned lower limit thickened sludge concentration Xmin by the detected above-mentioned thickened sludge concentration of above-mentioned thickened sludge concentration (81), reduce the revolution of above-mentioned screw drive machine (85) interimly, be higher than lower limit thickened sludge concentration Xmin up to above-mentioned thickened sludge concentration X, or the revolution S of above-mentioned screw rod (39) reaches till the above-mentioned lower limit revolution Smin;
Aforementioned proportion setting apparatus (93) has stored predefined above-mentioned condensing agent administration rate α and as upper limit administration rate α max, the lower limit administration rate α min of condensing agent of the condensing agent of its higher limit and lower value, and receives above-mentioned first instruction signal that sends from above-mentioned determining device (91);
When surpassing above-mentioned upper limit thickened sludge concentration Xmax by the detected thickened sludge concentration of above-mentioned thickened sludge concentration (81) X, then transmit second instruction signal, till above-mentioned thickened sludge concentration X is lower than above-mentioned upper limit thickened sludge concentration Xmax or above-mentioned condensing agent administration rate and reaches above-mentioned lower limit administration rate α min;
When the detected thickened sludge concentration of above-mentioned thickened sludge concentration (81) X is lower than above-mentioned lower limit thickened sludge concentration Xmin, and the revolution S of above-mentioned screw rod (39) then transmits second instruction signal when being lower than above-mentioned lower limit revolution Smin;
Above-mentioned second controller (94) receives above-mentioned second instruction signal that sends from aforementioned proportion setting apparatus (93);
When the detected thickened sludge concentration of above-mentioned thickened sludge concentration (81) X surpasses above-mentioned upper limit thickened sludge concentration Xmax, reduce the administration rate α of above-mentioned condensing agent, till above-mentioned thickened sludge concentration X is lower than above-mentioned upper limit thickened sludge concentration Xmax or above-mentioned condensing agent administration rate and reaches above-mentioned lower limit administration rate α min interimly;
When the detected thickened sludge concentration of above-mentioned thickened sludge concentration (81) X is lower than above-mentioned lower limit thickened sludge concentration Xmin, and when the revolution S of above-mentioned screw rod (39) is lower than above-mentioned lower limit revolution Smin, increase above-mentioned condensing agent administration rate α then interimly.
5. sludge concentration device according to claim 1 is characterized in that:
Above-mentioned determining device (91) has stored the lower limit revolution Smin of predefined upper limit thickened sludge concentration Xmax, lower limit thickened sludge concentration Xmin, the upper limit revolution Cmax of above-mentioned urceolus filter screen (21), the lower limit revolution Cmin of above-mentioned urceolus filter screen (21), the upper limit revolution Smax of above-mentioned screw rod (39), above-mentioned screw rod (39), when surpassing above-mentioned upper limit thickened sludge concentration Xmax by the detected thickened sludge concentration of above-mentioned thickened sludge concentration (81) X and be lower than above-mentioned lower limit thickened sludge concentration Xmin, then transmit above-mentioned first instruction signal;
Above-mentioned first controller (92) receives above-mentioned first instruction signal that sends from above-mentioned determining device (91);
When surpassing above-mentioned upper limit thickened sludge concentration Xmax by the detected thickened sludge concentration of above-mentioned thickened sludge concentration (81) X, and when above-mentioned condensing agent administration rate is lower than above-mentioned lower limit administration rate α min, increase the revolution of above-mentioned screw drive machine (85) then interimly, reach above-mentioned upper limit revolution Smax up to the revolution S of above-mentioned screw rod (39), when the revolution S of above-mentioned screw rod (39) surpasses above-mentioned upper limit revolution Smax, reduce the revolution of above-mentioned urceolus driving machine (86) then interimly, up to above-mentioned thickened sludge concentration X reach be lower than above-mentioned upper limit thickened sludge concentration Xmax till;
When the detected above-mentioned thickened sludge concentration X of above-mentioned thickened sludge concentration (81) is lower than above-mentioned lower limit thickened sludge concentration Xmin, reduce the revolution of above-mentioned screw drive machine (85) then interimly, till above-mentioned thickened sludge concentration X surpasses above-mentioned lower limit thickened sludge concentration Xmin or above-mentioned screw rod (39) revolution S and reaches above-mentioned lower limit revolution Smin, when above-mentioned screw rod (39) is lower than above-mentioned lower limit revolution Smin, increase the revolution of urceolus driving machine (86), till above-mentioned sludge concentration surpasses above-mentioned lower limit thickened sludge concentration Xmin or above-mentioned urceolus filter screen (21) and reaches upper limit revolution Cmax then interimly;
Aforementioned proportion setting apparatus (93) has stored the administration rate α of predefined above-mentioned condensing agent and as upper limit administration rate α max, the lower limit administration rate α min of condensing agent of the condensing agent of its higher limit and lower value, has received above-mentioned first instruction signal that sends from above-mentioned determining device (91);
When the detected thickened sludge concentration of above-mentioned thickened sludge concentration (81) X surpasses above-mentioned upper limit thickened sludge concentration Xmax, then transmit second instruction signal, till above-mentioned thickened sludge concentration X is lower than above-mentioned upper limit thickened sludge concentration Xmax or above-mentioned condensing agent administration rate and reaches above-mentioned lower limit administration rate α min;
When the detected thickened sludge concentration of above-mentioned thickened sludge concentration (81) X is lower than above-mentioned lower limit thickened sludge concentration Xmin, and the revolution C of above-mentioned urceolus filter screen (21) then transmits second instruction signal when surpassing above-mentioned upper limit revolution Cmax;
Above-mentioned second controller (94) receives above-mentioned second instruction signal that sends from aforementioned proportion setting apparatus (93);
When the detected thickened sludge concentration of above-mentioned thickened sludge concentration (81) X surpasses above-mentioned upper limit thickened sludge concentration Xmax, reduce the administration rate α of above-mentioned condensing agent, till the administration rate that above-mentioned thickened sludge concentration X is lower than above-mentioned upper limit thickened sludge concentration Xmax or above-mentioned condensing agent reaches above-mentioned lower limit administration rate α min then interimly;
When the detected thickened sludge concentration of above-mentioned thickened sludge concentration (81) X is lower than above-mentioned lower limit thickened sludge concentration Xmin, and when the revolution C of above-mentioned urceolus filter screen (21) surpasses above-mentioned upper limit revolution Cmax, increase the administration rate α of above-mentioned condensing agent then interimly.
6. sludge concentration device according to claim 1 is characterized in that:
Above-mentioned determining device (91) has stored the lower limit revolution Smin of predefined upper limit thickened sludge concentration Xmax, lower limit thickened sludge concentration Xmin, the upper limit revolution Cmax of above-mentioned urceolus filter screen (21), the lower limit revolution Cmin of above-mentioned urceolus filter screen (21), the upper limit revolution Smax of above-mentioned screw rod (39), above-mentioned screw rod (39), when surpassing above-mentioned upper limit thickened sludge concentration Xmax by the detected thickened sludge concentration of above-mentioned thickened sludge concentration (81) X and be lower than above-mentioned lower limit thickened sludge concentration Xmin, then transmit above-mentioned first instruction signal;
Above-mentioned first controller (92) receives above-mentioned first instruction signal that sends from above-mentioned determining device (91);
When the detected thickened sludge concentration of above-mentioned thickened sludge concentration (81) X surpasses upper limit thickened sludge concentration Xmax, and when above-mentioned condensing agent administration rate is lower than above-mentioned lower limit administration rate α min, when increasing the revolution of above-mentioned screw drive machine (85), reduce the revolution of above-mentioned urceolus driving machine (86) then interimly interimly;
When being lower than above-mentioned lower limit thickened sludge concentration Xmin by the detected thickened sludge concentration of above-mentioned thickened sludge concentration (81), when reducing the revolution of above-mentioned screw drive machine (85) then interimly, increase the revolution of above-mentioned urceolus driving machine (86) interimly, reach above above-mentioned lower limit thickened sludge concentration Xmin up to above-mentioned thickened sludge concentration X, the revolution C that the revolution S of above-mentioned screw rod (39) reaches above-mentioned lower limit revolution Smin or above-mentioned urceolus filter screen (21) reaches till the above-mentioned upper limit revolution Cmax;
Aforementioned proportion setting apparatus (93) has stored the administration rate α of predefined above-mentioned condensing agent and as upper limit administration rate α max, the lower limit administration rate α min of condensing agent of the condensing agent of its higher limit and lower value, has received above-mentioned first instruction signal that sends from above-mentioned determining device (91);
When the detected thickened sludge concentration of above-mentioned thickened sludge concentration (81) X surpasses above-mentioned upper limit thickened sludge concentration Xmax, then transmit second instruction signal, till above-mentioned thickened sludge concentration X is lower than above-mentioned upper limit thickened sludge concentration Xmax or above-mentioned condensing agent administration rate and reaches above-mentioned lower limit administration rate α min;
When the detected thickened sludge concentration of above-mentioned thickened sludge concentration (81) X is lower than above-mentioned lower limit thickened sludge concentration Xmin, and when the revolution C that the revolution S of above-mentioned screw rod (39) is lower than above-mentioned lower limit revolution Smin or above-mentioned urceolus filter screen (21) surpasses above-mentioned upper limit revolution Cmax, then transmit second instruction signal;
Above-mentioned second controller (94) receives above-mentioned second instruction signal that sends from aforementioned proportion setting apparatus (93);
When the detected thickened sludge concentration of above-mentioned thickened sludge concentration (81) X surpasses above-mentioned upper limit thickened sludge concentration Xmax, reduce the administration rate α of above-mentioned condensing agent, till the administration rate α that above-mentioned thickened sludge concentration X is lower than above-mentioned upper limit thickened sludge concentration Xmax or above-mentioned condensing agent reaches above-mentioned lower limit administration rate α min then interimly;
When the detected thickened sludge concentration of above-mentioned thickened sludge concentration (81) X is lower than above-mentioned lower limit thickened sludge concentration Xmin, and when the revolution C that the revolution S of above-mentioned screw rod (39) is lower than above-mentioned lower limit revolution Smin or above-mentioned urceolus filter screen (21) surpasses above-mentioned upper limit revolution Cmax, increase the administration rate α of above-mentioned condensing agent then interimly.
7. sludge concentration device according to claim 1 is characterized in that:
Above-mentioned determining device (91) has stored the best revolution Sso of predefined upper limit thickened sludge concentration Xmax, lower limit thickened sludge concentration Xmin, the best revolution Cso of above-mentioned urceolus filter screen, above-mentioned screw rod, when above-mentioned differential rotary concentrator (80) entry into service and by the detected thickened sludge concentration of above-mentioned thickened sludge concentration (81) X, be lower than above-mentioned upper limit thickened sludge concentration Xmax and, then transmit above-mentioned first instruction signal greater than above-mentioned lower limit thickened sludge concentration Xmin and when changing stoste feed rate Qs;
The best revolution Sso of the best revolution Cso of above-mentioned urceolus filter screen (21), above-mentioned screw rod (39) sets the revolution of screw rod (39) and urceolus filter screen (21) according to the stoste feed rate Qs that changes and the relational expression of derivation is defined as:
The best revolution Sso (rpm) of screw rod (39)
=revolution coefficient S1 * stoste processing speed (m 3/ m 2/ h)
The best revolution Cso (rpm) of urceolus filter screen (21)
=revolution coefficient C1 * stoste processing speed (m 3/ m 2/ h)
Above-mentioned first controller (92) receives above-mentioned first instruction signal that sends from above-mentioned determining device (91), when above-mentioned differential rotary concentrator (80) entry into service and the detected above-mentioned thickened sludge concentration X of above-mentioned thickened sludge concentration (81) be lower than above-mentioned upper limit thickened sludge concentration Xmax and greater than above-mentioned lower limit thickened sludge concentration Xmin and when changing above-mentioned stoste feed rate Qs, best revolution Sso according to above-mentioned screw rod (39) that calculates from the above-mentioned relation formula and above-mentioned urceolus filter screen (21), Cso, control screw drive machine (85) and urceolus driving machine (86).
8. sludge concentration device according to claim 1 is characterized in that:
Above-mentioned thickened sludge concentration (81) has:
The bottom that falls in down in the above-mentioned thickened sludge has out (108), and is provided with the cylindric detection bodies (90) of airport (109) in the upper end,
CD-ROM drive motor (89) with the turning axle (106) that is connected with above-mentioned cylindric detection bodies (90);
Above-mentioned power detector (87) detects the change of the current value of above-mentioned CD-ROM drive motor (89), and the change of above-mentioned current value is exported as above-said current signal.
9. sludge concentration device according to claim 2 is characterized in that:
Above-mentioned differential rotary concentrator (80) possesses the urceolus (15) that two ends are made of urceolus filter screen (21) discoid flanged plate (17), (19) sealing and cylinder side face,
On above-mentioned urceolus (15), be provided with increase and decrease and regulate the exit opening degree regulating mechanism of the port area of above-mentioned exit opening (59),
Above-mentioned exit opening degree regulating mechanism comprises and overlaps configuration with the flanged plate (19) that forms above-mentioned exit opening (59) and can rotate the baffle plate (63) of displacement with respect to this flanged plate (19), and increases and decreases the obturation amount of this baffle plate (63) to above-mentioned exit opening (59) according to this baffle plate (63) with respect to the rotation index position of above-mentioned flanged plate (19).
CNU2005201150214U 2005-04-14 2005-07-29 Sludge concentration apparatus Expired - Lifetime CN2913356Y (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
JP2005116491 2005-04-14
JP2005116491A JP4427798B2 (en) 2005-04-14 2005-04-14 Operation control method and operation control device for differential speed rotary concentrator

Related Child Applications (1)

Application Number Title Priority Date Filing Date
CNU2006201497417U Division CN201063014Y (en) 2005-04-14 2005-07-29 Apparatus for testing concentration

Publications (1)

Publication Number Publication Date
CN2913356Y true CN2913356Y (en) 2007-06-20

Family

ID=37076950

Family Applications (5)

Application Number Title Priority Date Filing Date
CN2008100867529A Active CN101275922B (en) 2005-04-14 2005-07-29 Concentration detector and control device of differential rotary concentrator
CN200510088838A Active CN100579924C (en) 2005-04-14 2005-07-29 Sludge concentration device and sludge concentration method
CNU2006201497417U Expired - Lifetime CN201063014Y (en) 2005-04-14 2005-07-29 Apparatus for testing concentration
CN2008100867567A Active CN101255001B (en) 2005-04-14 2005-07-29 Differential velocity rotary concentrator and sludge concentration method thereof
CNU2005201150214U Expired - Lifetime CN2913356Y (en) 2005-04-14 2005-07-29 Sludge concentration apparatus

Family Applications Before (4)

Application Number Title Priority Date Filing Date
CN2008100867529A Active CN101275922B (en) 2005-04-14 2005-07-29 Concentration detector and control device of differential rotary concentrator
CN200510088838A Active CN100579924C (en) 2005-04-14 2005-07-29 Sludge concentration device and sludge concentration method
CNU2006201497417U Expired - Lifetime CN201063014Y (en) 2005-04-14 2005-07-29 Apparatus for testing concentration
CN2008100867567A Active CN101255001B (en) 2005-04-14 2005-07-29 Differential velocity rotary concentrator and sludge concentration method thereof

Country Status (8)

Country Link
US (2) US7828961B2 (en)
EP (3) EP2626333B1 (en)
JP (1) JP4427798B2 (en)
KR (1) KR100920965B1 (en)
CN (5) CN101275922B (en)
AU (1) AU2005330884B2 (en)
TW (1) TW200800811A (en)
WO (1) WO2006112041A1 (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US7828961B2 (en) 2005-04-14 2010-11-09 Ishigaki Company Limited Sludge thickening device
CN101913751A (en) * 2010-07-14 2010-12-15 江苏江达生态科技有限公司 Slurry dehydration combined system

Families Citing this family (38)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP4849380B2 (en) * 2007-03-09 2012-01-11 株式会社石垣 Screw press cake moisture content constant control method
JP5051889B2 (en) * 2007-09-26 2012-10-17 月島機械株式会社 Filtration apparatus and filtration method
JP5176625B2 (en) * 2008-03-19 2013-04-03 株式会社石垣 Constant moisture content control method and moisture content constant control device in screw press
DE102008047427A1 (en) * 2008-09-15 2010-04-15 Bähr, Albert, Dipl.-Ing. Process and apparatus for solid-liquid separation of mixtures and suspensions
JP4978636B2 (en) * 2009-02-12 2012-07-18 株式会社石垣 Concentrator
KR101337290B1 (en) * 2009-03-19 2013-12-05 가부시키가이샤 이시가키 Concentrator-integrated screw press
CN101797451B (en) * 2010-02-24 2011-09-21 无锡达尼智能科技有限公司 Roll immersed membrane capillary sludge deep dehydrator
JP5240232B2 (en) * 2010-04-23 2013-07-17 株式会社石垣 Control system and control device
EP2670708A1 (en) * 2011-01-31 2013-12-11 Ashland Licensing And Intellectual Property, LLC Method for dewatering sludge
EP2707206B1 (en) * 2011-03-18 2019-05-15 Röhren- und Pumpenwerk Bauer Gesellschaft mbH Press screw separator
EP2694181A1 (en) * 2011-04-05 2014-02-12 Grundfos Holding A/S Method and system for filtration and filtration cake layer formation
CN102247914B (en) * 2011-04-20 2013-03-20 山东理工大学 Ball grinding mill mud concentration detection method
NL2007442C2 (en) * 2011-09-19 2013-03-21 Piet Visscher Landbouwmechanisatie En Handelsondernemning B V DEVICE FOR SEPARATING MATERIAL, SUCH AS MANURE, IN LIQUID FRACTION AND SOLID MATERIAL WITH ADJUSTABLE OPENING FOR EXHAUST SOLID MATERIAL.
EP2780158B1 (en) * 2011-11-18 2016-06-15 Voith Patent GmbH Screw press ii
CA2818503A1 (en) * 2012-07-03 2014-01-03 Tomoe Engineering Co., Ltd. Sludge processing system and storage medium storing a program for controlling an operation of a sludge processing system thereon
HUE038801T2 (en) * 2013-01-09 2018-11-28 Roehren Und Pumpenwerk Bauer Gmbh Worm press separator and method for operating the worm press separator
CN103979773B (en) * 2013-07-18 2016-05-18 宁波高新区围海工程技术开发有限公司 A kind of flocculating agent mixing device that is applicable to sludge rapid dewatering system
DK3026026T3 (en) * 2013-07-26 2019-07-08 Ishigaki Mech Ind Recovery apparatus and recovery method for recovering specific material from sludge
CN103663919A (en) * 2013-12-27 2014-03-26 吴江市华宏纺织丝绸有限公司 Dyeing sludge dewatering tank
US10286340B2 (en) 2014-05-27 2019-05-14 Daritech, Inc. Feed systems and methods for rotary screen separators
CA2893311A1 (en) * 2014-05-30 2015-11-30 Daritech, Inc. Cleaning systems and methods for rotary screen separators
US10603675B2 (en) 2014-11-02 2020-03-31 Dari-Tech, Inc. Systems and methods for extracting particulate from raw slurry material
WO2016094959A1 (en) * 2014-12-20 2016-06-23 Dorian Brian A filtration system for removing suspended and colloidal material from wastewater
US10654015B2 (en) * 2015-03-31 2020-05-19 Kubota Corporation Method for controlling rapid stirrer, and rapid stirrer
NO20151693A1 (en) * 2015-12-09 2017-06-12 Botnetank As Method and apparatus for dewatering septic sludge
CN105817069A (en) * 2016-05-31 2016-08-03 上海迈正环境科技有限公司 Kitchen waste dehydration and residue removal device
JP6703766B2 (en) * 2016-12-09 2020-06-03 株式会社石垣 How to operate the drum type concentrator
DE102018113804A1 (en) * 2018-06-11 2019-12-12 Voith Patent Gmbh disc filter
CN110342778A (en) * 2019-08-15 2019-10-18 浙江海洋大学 A kind of chitin production sludge combination dehydration device
SE544566C2 (en) * 2020-01-31 2022-07-19 Hydria Water Ab A separation device and method to separate contaminants from contaminated water
KR102356099B1 (en) * 2020-03-05 2022-01-28 주식회사 엔젤 A jucier and jucier method thereof
KR20210113470A (en) * 2020-03-05 2021-09-16 주식회사 엔젤 A jucier
AT524067B1 (en) * 2020-07-21 2023-08-15 Andritz Ag Maschf METHOD AND DEVICE FOR MEASURING THE FILTRATE CONTENT ON A SCREW PRESS
CN111888828A (en) * 2020-09-01 2020-11-06 安徽亿智新材料科技有限公司 Sludge recovery device for aluminum industry
WO2022076500A1 (en) 2020-10-08 2022-04-14 Ecolab Usa Inc. System and technique for detecting cleaning chemical usage to control cleaning efficacy
CN112630112B (en) * 2020-12-31 2024-08-30 葛洲坝集团生态环保有限公司 Quick detection system for activated sludge
CN112945814B (en) * 2021-04-16 2024-06-07 武汉理工大学 Experimental device and application method thereof
DE102022120864A1 (en) * 2022-08-18 2024-02-29 Huber Se Device for dewatering and compacting pressed material and method for operating such a device

Family Cites Families (41)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3034421A (en) * 1959-11-24 1962-05-15 St Joseph Lead Co Apparatus for densifying bulky powders
US3292422A (en) * 1964-06-23 1966-12-20 Automation Prod Method of and apparatus for measuring viscosity
US3777551A (en) * 1971-12-20 1973-12-11 Texaco Inc Continuous recording viscometer
US4041854A (en) * 1974-06-10 1977-08-16 Cox Clyde H Sludge dewatering
US4175425A (en) * 1977-04-08 1979-11-27 Brookfield David A Viscometer
US4380496A (en) * 1979-03-22 1983-04-19 Uop Inc. Mechanical dewatering process utilizing a nonuniform screw conveyor
JPS5640452A (en) 1979-09-05 1981-04-16 Pennwalt Corp Concentrating device
DE3115692A1 (en) * 1981-04-18 1982-11-11 Klöckner-Humboldt-Deutz AG, 5000 Köln ADAPTIVE RULING PROCEDURE
JPS5845886A (en) 1981-09-08 1983-03-17 新明和工業株式会社 Industrial robot
US4544489A (en) * 1984-07-02 1985-10-01 Canadian Patents And Development Limited Process and apparatus for controlled addition of conditioning material to sewage sludge
US4705055A (en) * 1985-06-21 1987-11-10 Brown International Corporation Apparatus for automatically cleaning extrusion screens in juice finishing machines and the like
US4781823A (en) * 1987-04-13 1988-11-01 Fukoku Kogyo Company Limited Pre-filtering apparatus for use in continuous press
JP2809307B2 (en) 1987-08-06 1998-10-08 キヤノン株式会社 Encoding device
US5003814A (en) * 1988-04-29 1991-04-02 Lenon Envionmental Inc. Sampling processes for use in the controlled addition of conditioning material to suspensions, sludges and the like and apparatus thereof
US5056358A (en) * 1988-08-26 1991-10-15 University Of British Columbia Apparatus for the determination of rheological properties of sedimenting suspensions
JP2500393B2 (en) 1991-01-11 1996-05-29 石垣機工株式会社 Operating method of screw press and its equipment
AU654681B2 (en) * 1991-09-24 1994-11-17 Ishigaki Company Limited Screw press
JPH05305253A (en) 1992-04-28 1993-11-19 Kajima Corp Method and apparatus for separating earth and sand
JPH0625747A (en) 1992-07-13 1994-02-01 Nippon Steel Corp Manufacture of thin high magnetic flux density grain-oriented silicon steel sheet
JPH0625747U (en) 1992-08-28 1994-04-08 株式会社クボタ Sludge concentration measuring device
US5382368A (en) * 1993-05-20 1995-01-17 Fukoku Kogyo Co., Ltd. Method for dewatering sludge
JP2842777B2 (en) * 1993-11-15 1999-01-06 コーエイ工業 株式会社 Sludge detector and sludge treatment device equipped with sludge detector
JP3731292B2 (en) 1997-06-06 2006-01-05 株式会社明電舎 Operation control method of sludge centrifugal dehydrator
AT406847B (en) * 1998-02-10 2000-09-25 Andritz Patentverwaltung METHOD FOR REGULATING A SCREW PRESS
JP3124997B2 (en) 1998-10-13 2001-01-15 日立機電工業株式会社 Screen residue dewatering device
AU762906B2 (en) * 1999-11-09 2003-07-10 Ishigaki Company Limited Screw press
CN1274486C (en) * 1999-11-30 2006-09-13 株式会社石垣 Screw press apparatus
JP2001179492A (en) 1999-12-21 2001-07-03 Ishigaki Co Ltd Screw press type concentrating machine, and its concentrating method
CA2349252C (en) * 2000-10-13 2007-05-22 Fkc Co., Ltd. Sludge dewatering and pasteurization system and method
JP3542970B2 (en) 2001-02-19 2004-07-14 月島機械株式会社 Screw press type filtration device
DE20110292U1 (en) * 2001-06-21 2002-10-24 Kühn Umweltprodukte GmbH, 29683 Fallingbostel Device for thickening or dewatering sludge, sediments from water or the like, in particular excess sludge in sewage treatment plants
JP3832330B2 (en) 2001-12-18 2006-10-11 株式会社石垣 Outer cylinder rotary concentrator and sludge separation and concentration method
CN2538801Y (en) * 2002-02-08 2003-03-05 商城县开源环保工程设备有限公司 Mud concentration dewatering machine
US6964737B2 (en) * 2002-06-14 2005-11-15 Duke University Systems for water and wastewater sludge treatment using floc or network strength
JP3797551B2 (en) * 2002-06-20 2006-07-19 株式会社石垣 Ejector adjustment device for rotary concentrator
JP4420595B2 (en) * 2002-08-30 2010-02-24 株式会社クボタ Solid-liquid separator
CN2565240Y (en) * 2002-12-16 2003-08-06 王绍康 Integrated device for condensating squeezing and dewatering
AU2004281244B8 (en) * 2003-10-15 2009-08-06 Nordic Water Products Ab Apparatus and method for treating sludge
JP4232607B2 (en) 2003-11-07 2009-03-04 株式会社石垣 Operation control method for differential speed rotary concentrator
JP4487242B2 (en) 2004-03-24 2010-06-23 株式会社石垣 Rotary concentrator controller
JP4427798B2 (en) 2005-04-14 2010-03-10 株式会社石垣 Operation control method and operation control device for differential speed rotary concentrator

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US7828961B2 (en) 2005-04-14 2010-11-09 Ishigaki Company Limited Sludge thickening device
US7906029B2 (en) 2005-04-14 2011-03-15 Ishigaki Company Limited Sludge thickening method
CN101913751A (en) * 2010-07-14 2010-12-15 江苏江达生态科技有限公司 Slurry dehydration combined system
CN101913751B (en) * 2010-07-14 2012-04-18 江苏江达生态科技有限公司 Slurry dehydration combined system

Also Published As

Publication number Publication date
EP2626333A1 (en) 2013-08-14
TW200800811A (en) 2008-01-01
CN101255001B (en) 2011-07-20
CN201063014Y (en) 2008-05-21
US7906029B2 (en) 2011-03-15
CN1847172A (en) 2006-10-18
US7828961B2 (en) 2010-11-09
CN101255001A (en) 2008-09-03
EP1873123A1 (en) 2008-01-02
KR20070121760A (en) 2007-12-27
EP1873123B1 (en) 2013-11-20
JP2006289308A (en) 2006-10-26
KR100920965B1 (en) 2009-10-09
CN101275922A (en) 2008-10-01
JP4427798B2 (en) 2010-03-10
EP1873123A4 (en) 2012-03-14
EP2628714A1 (en) 2013-08-21
AU2005330884A1 (en) 2006-10-26
EP2626333B1 (en) 2015-04-15
US20090057235A1 (en) 2009-03-05
AU2005330884B2 (en) 2009-07-30
CN101275922B (en) 2011-12-28
WO2006112041A1 (en) 2006-10-26
TWI324986B (en) 2010-05-21
CN100579924C (en) 2010-01-13
US20100213137A1 (en) 2010-08-26

Similar Documents

Publication Publication Date Title
CN2913356Y (en) Sludge concentration apparatus
US10463992B2 (en) High-rate sedimentation tank and water treatment apparatus including the same
CN102348650B (en) Concentrator-integrated screw press
KR100958664B1 (en) High efficiency apparatus for dehydrating sludge connected by thickener
US8672141B2 (en) Solid-liquid separating system
CN105084709A (en) Stacked spiral type sludge dewatering machine
CN113371967A (en) Stacked screw type sludge dewatering machine and dewatering method thereof
US3688905A (en) Purification assembly
JP2010247043A (en) Operation control method for screw press provided continuously to thickener
CN113292219B (en) V-shaped belt type dewatering equipment capable of self-adapting to sludge concentration and application thereof
CN204981548U (en) Volute sludge dewaterer
CN212450990U (en) Complete device for treating oil sludge waste liquid
CN211999147U (en) Water treatment chemical dosing device
KR20130023301A (en) Sludge concentration apparutus of multiple circle plate type
CN114538673B (en) Automatic dewatering system and method for seawater pretreatment sludge
JP2005138039A (en) Differential speed rotation condensing machine and drive control method
CN114349274B (en) Biochemical sewage treatment system and sewage treatment method thereof
CN221544331U (en) Sewage coagulating sedimentation treatment equipment with adjustable pH value
CN218692306U (en) Horizontal sedimentation tank sludge cleaning device of tap water plant
CN118005203A (en) Simple water treatment device, system and method
CN115531951A (en) Filter element lifting assembly and water treatment device with same
CN118206229A (en) Intelligent water treatment device system with microfiltration mechanism and method

Legal Events

Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
AV01 Patent right actively abandoned

Effective date of abandoning: 20100113

AV01 Patent right actively abandoned

Effective date of abandoning: 20100113

C25 Abandonment of patent right or utility model to avoid double patenting